Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study

Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study

OBJECTIVES: Nasal continuous positive airway pressure is used as a standard of care after extubation in very-low-birth-weight infants. A pressure of 5 cmH2O is usually applied regardless of individual differences in lung compliance. Current methods for evaluation of lung compliance and air distribution in the lungs are thus imprecise for preterm infants. This study used electrical impedance tomography to determine the feasibility of evaluating the positive end-expiratory pressure level associated with a more homogeneous air distribution within the lungs before extubation. METHODS: Ventilation homogeneity was defined by electrical impedance tomography as the ratio of ventilation between dependent and non-dependent lung areas. The best ventilation homogeneity was achieved when this ratio was equal to 1. Just before extubation, decremental expiratory pressure levels were applied (8, 7, 6 and 5 cmH(2)0; 3 minutes each step), and the pressure that determined the best ventilation homogeneity was defined as the best positive end-expiratory pressure. RESULTS: The best positive end-expiratory pressure value was 6.3 ± 1.1 cmH(2)0, and the mean continuous positive airway pressure applied after extubation was 5.2 ± 0.4 cmH(2)0 (p = 0.002). The extubation failure rate was 21.4%. X-Ray and blood gases after extubation were also checked. CONCLUSION: This study demonstrates that electrical impedance tomography can be safely and successfully used in patients ready for extubation to suggest the best ventilation homogeneity, which is influenced by the level of expiratory pressure applied. In this feasibility study, the best lung compliance was found with pressure levels higher than the continuous positive airway pressure levels that are usually applied for routine extubation.

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Main Authors: Rossi,Felipe de Souza, Yagui,Ana Cristina Zanon, Haddad,Luciana Branco, Deutsch,Alice D'Agostini, Rebello,Celso Moura
Format: Digital revista
Language:English
Published: Faculdade de Medicina / USP 2013
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1807-59322013000300011
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spelling oai:scielo:S1807-593220130003000112015-07-28Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility studyRossi,Felipe de SouzaYagui,Ana Cristina ZanonHaddad,Luciana BrancoDeutsch,Alice D'AgostiniRebello,Celso Moura Infant Premature Electric Impedance Continuous Positive Airway Pressure OBJECTIVES: Nasal continuous positive airway pressure is used as a standard of care after extubation in very-low-birth-weight infants. A pressure of 5 cmH2O is usually applied regardless of individual differences in lung compliance. Current methods for evaluation of lung compliance and air distribution in the lungs are thus imprecise for preterm infants. This study used electrical impedance tomography to determine the feasibility of evaluating the positive end-expiratory pressure level associated with a more homogeneous air distribution within the lungs before extubation. METHODS: Ventilation homogeneity was defined by electrical impedance tomography as the ratio of ventilation between dependent and non-dependent lung areas. The best ventilation homogeneity was achieved when this ratio was equal to 1. Just before extubation, decremental expiratory pressure levels were applied (8, 7, 6 and 5 cmH(2)0; 3 minutes each step), and the pressure that determined the best ventilation homogeneity was defined as the best positive end-expiratory pressure. RESULTS: The best positive end-expiratory pressure value was 6.3 ± 1.1 cmH(2)0, and the mean continuous positive airway pressure applied after extubation was 5.2 ± 0.4 cmH(2)0 (p = 0.002). The extubation failure rate was 21.4%. X-Ray and blood gases after extubation were also checked. CONCLUSION: This study demonstrates that electrical impedance tomography can be safely and successfully used in patients ready for extubation to suggest the best ventilation homogeneity, which is influenced by the level of expiratory pressure applied. In this feasibility study, the best lung compliance was found with pressure levels higher than the continuous positive airway pressure levels that are usually applied for routine extubation.info:eu-repo/semantics/openAccessFaculdade de Medicina / USPClinics v.68 n.3 20132013-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1807-59322013000300011en10.6061/clinics/2013(03)OA10
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country Brasil
countrycode BR
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region America del Sur
libraryname SciELO
language English
format Digital
author Rossi,Felipe de Souza
Yagui,Ana Cristina Zanon
Haddad,Luciana Branco
Deutsch,Alice D'Agostini
Rebello,Celso Moura
spellingShingle Rossi,Felipe de Souza
Yagui,Ana Cristina Zanon
Haddad,Luciana Branco
Deutsch,Alice D'Agostini
Rebello,Celso Moura
Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study
author_facet Rossi,Felipe de Souza
Yagui,Ana Cristina Zanon
Haddad,Luciana Branco
Deutsch,Alice D'Agostini
Rebello,Celso Moura
author_sort Rossi,Felipe de Souza
title Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study
title_short Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study
title_full Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study
title_fullStr Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study
title_full_unstemmed Electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study
title_sort electrical impedance tomography to evaluate air distribution prior to extubation in very-low-birth-weight infants: a feasibility study
description OBJECTIVES: Nasal continuous positive airway pressure is used as a standard of care after extubation in very-low-birth-weight infants. A pressure of 5 cmH2O is usually applied regardless of individual differences in lung compliance. Current methods for evaluation of lung compliance and air distribution in the lungs are thus imprecise for preterm infants. This study used electrical impedance tomography to determine the feasibility of evaluating the positive end-expiratory pressure level associated with a more homogeneous air distribution within the lungs before extubation. METHODS: Ventilation homogeneity was defined by electrical impedance tomography as the ratio of ventilation between dependent and non-dependent lung areas. The best ventilation homogeneity was achieved when this ratio was equal to 1. Just before extubation, decremental expiratory pressure levels were applied (8, 7, 6 and 5 cmH(2)0; 3 minutes each step), and the pressure that determined the best ventilation homogeneity was defined as the best positive end-expiratory pressure. RESULTS: The best positive end-expiratory pressure value was 6.3 ± 1.1 cmH(2)0, and the mean continuous positive airway pressure applied after extubation was 5.2 ± 0.4 cmH(2)0 (p = 0.002). The extubation failure rate was 21.4%. X-Ray and blood gases after extubation were also checked. CONCLUSION: This study demonstrates that electrical impedance tomography can be safely and successfully used in patients ready for extubation to suggest the best ventilation homogeneity, which is influenced by the level of expiratory pressure applied. In this feasibility study, the best lung compliance was found with pressure levels higher than the continuous positive airway pressure levels that are usually applied for routine extubation.
publisher Faculdade de Medicina / USP
publishDate 2013
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1807-59322013000300011
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