Bedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDS

Bedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDS

Abstract Purpose In acute respiratory distress syndrome (ARDS), dead space fraction has been independently associated with mortality. We hypothesized that early measurement of the difference between arterial and end-tidal CO2 (arterial-ET difference), a surrogate for dead space fraction, would predi...

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Main Authors: Paola Lecompte-Osorio, Steven D. Pearson, Cole H. Pieroni, Matthew R. Stutz, Anne S. Pohlman, Julie Lin, Jesse B. Hall, Yu M. Htwe, Patrick G. Belvitch, Steven M. Dudek, Krysta Wolfe, Bhakti K. Patel, John P. Kress
Format: Article
Language:English
Published: BMC 2021-09-01
Series:Critical Care
Subjects:
ARDS
Mortality
Blood gas analysis
End-tidal CO2
Online Access:https://doi.org/10.1186/s13054-021-03751-x
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spelling doaj-f19f7338008a497a81a43158e379f6152021-09-19T11:04:19ZengBMCCritical Care1364-85352021-09-012511710.1186/s13054-021-03751-xBedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDSPaola Lecompte-Osorio0Steven D. Pearson1Cole H. Pieroni2Matthew R. Stutz3Anne S. Pohlman4Julie Lin5Jesse B. Hall6Yu M. Htwe7Patrick G. Belvitch8Steven M. Dudek9Krysta Wolfe10Bhakti K. Patel11John P. Kress12Section of Pulmonology and Critical Care, University of ChicagoSection of Pulmonology and Critical Care, University of ChicagoUniversity of MichiganSection of Pulmonology and Critical Care, University of ChicagoSection of Pulmonology and Critical Care, University of ChicagoDepartment of Pulmonary Medicine, University of Texas MD Anderson Cancer CenterSection of Pulmonology and Critical Care, University of ChicagoDivision of Pulmonary, Critical Care, Sleep and Allergy, University of Illinois ChicagoDivision of Pulmonary, Critical Care, Sleep and Allergy, University of Illinois ChicagoDivision of Pulmonary, Critical Care, Sleep and Allergy, University of Illinois ChicagoSection of Pulmonology and Critical Care, University of ChicagoSection of Pulmonology and Critical Care, University of ChicagoSection of Pulmonology and Critical Care, University of ChicagoAbstract Purpose In acute respiratory distress syndrome (ARDS), dead space fraction has been independently associated with mortality. We hypothesized that early measurement of the difference between arterial and end-tidal CO2 (arterial-ET difference), a surrogate for dead space fraction, would predict mortality in mechanically ventilated patients with ARDS. Methods We performed two separate exploratory analyses. We first used publicly available databases from the ALTA, EDEN, and OMEGA ARDS Network trials (N = 124) as a derivation cohort to test our hypothesis. We then performed a separate retrospective analysis of patients with ARDS using University of Chicago patients (N = 302) as a validation cohort. Results The ARDS Network derivation cohort demonstrated arterial-ET difference, vasopressor requirement, age, and APACHE III to be associated with mortality by univariable analysis. By multivariable analysis, only the arterial-ET difference remained significant (P = 0.047). In a separate analysis, the modified Enghoff equation ((PaCO2–PETCO2)/PaCO2) was used in place of the arterial-ET difference and did not alter the results. The University of Chicago cohort found arterial-ET difference, age, ventilator mode, vasopressor requirement, and APACHE II to be associated with mortality in a univariate analysis. By multivariable analysis, the arterial-ET difference continued to be predictive of mortality (P = 0.031). In the validation cohort, substitution of the arterial-ET difference for the modified Enghoff equation showed similar results. Conclusion Arterial to end-tidal CO2 (ETCO2) difference is an independent predictor of mortality in patients with ARDS.https://doi.org/10.1186/s13054-021-03751-xARDSMortalityBlood gas analysisEnd-tidal CO2
collection DOAJ
language English
format Article
sources DOAJ
author Paola Lecompte-Osorio
Steven D. Pearson
Cole H. Pieroni
Matthew R. Stutz
Anne S. Pohlman
Julie Lin
Jesse B. Hall
Yu M. Htwe
Patrick G. Belvitch
Steven M. Dudek
Krysta Wolfe
Bhakti K. Patel
John P. Kress
spellingShingle Paola Lecompte-Osorio
Steven D. Pearson
Cole H. Pieroni
Matthew R. Stutz
Anne S. Pohlman
Julie Lin
Jesse B. Hall
Yu M. Htwe
Patrick G. Belvitch
Steven M. Dudek
Krysta Wolfe
Bhakti K. Patel
John P. Kress
Bedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDS
Critical Care
ARDS
Mortality
Blood gas analysis
End-tidal CO2
author_facet Paola Lecompte-Osorio
Steven D. Pearson
Cole H. Pieroni
Matthew R. Stutz
Anne S. Pohlman
Julie Lin
Jesse B. Hall
Yu M. Htwe
Patrick G. Belvitch
Steven M. Dudek
Krysta Wolfe
Bhakti K. Patel
John P. Kress
author_sort Paola Lecompte-Osorio
title Bedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDS
title_short Bedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDS
title_full Bedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDS
title_fullStr Bedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDS
title_full_unstemmed Bedside estimates of dead space using end-tidal CO2 are independently associated with mortality in ARDS
title_sort bedside estimates of dead space using end-tidal co2 are independently associated with mortality in ards
publisher BMC
series Critical Care
issn 1364-8535
publishDate 2021-09-01
description Abstract Purpose In acute respiratory distress syndrome (ARDS), dead space fraction has been independently associated with mortality. We hypothesized that early measurement of the difference between arterial and end-tidal CO2 (arterial-ET difference), a surrogate for dead space fraction, would predict mortality in mechanically ventilated patients with ARDS. Methods We performed two separate exploratory analyses. We first used publicly available databases from the ALTA, EDEN, and OMEGA ARDS Network trials (N = 124) as a derivation cohort to test our hypothesis. We then performed a separate retrospective analysis of patients with ARDS using University of Chicago patients (N = 302) as a validation cohort. Results The ARDS Network derivation cohort demonstrated arterial-ET difference, vasopressor requirement, age, and APACHE III to be associated with mortality by univariable analysis. By multivariable analysis, only the arterial-ET difference remained significant (P = 0.047). In a separate analysis, the modified Enghoff equation ((PaCO2–PETCO2)/PaCO2) was used in place of the arterial-ET difference and did not alter the results. The University of Chicago cohort found arterial-ET difference, age, ventilator mode, vasopressor requirement, and APACHE II to be associated with mortality in a univariate analysis. By multivariable analysis, the arterial-ET difference continued to be predictive of mortality (P = 0.031). In the validation cohort, substitution of the arterial-ET difference for the modified Enghoff equation showed similar results. Conclusion Arterial to end-tidal CO2 (ETCO2) difference is an independent predictor of mortality in patients with ARDS.
topic ARDS
Mortality
Blood gas analysis
End-tidal CO2
url https://doi.org/10.1186/s13054-021-03751-x
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