Does taking endurance into account improve the prediction of weaning outcome in mechanically ventilated children?

Details

Serval ID
serval:BIB_3E7DC9CEF582
Type
Article: article from journal or magazin.
Collection
Publications
Title
Does taking endurance into account improve the prediction of weaning outcome in mechanically ventilated children?
Journal
Crit Care
Author(s)
Noizet O., Leclerc F., Sadik A., Grandbastien B., Riou Y., Dorkenoo A., Fourier C., Cremer R., Leteurtre S.
ISSN
1364-8535
Publication state
Published
Issued date
2005
Volume
9
Number
6
Pages
R798–807
Language
english
Abstract
INTRODUCTION: We conducted the present study to determine whether a combination of the mechanical ventilation weaning predictors proposed by the collective Task Force of the American College of Chest Physicians (TF) and weaning endurance indices enhance prediction of weaning success. METHOD: Conducted in a tertiary paediatric intensive care unit at a university hospital, this prospective study included 54 children receiving mechanical ventilation (> or = 6 hours) who underwent 57 episodes of weaning. We calculated the indices proposed by the TF (spontaneous respiratory rate, paediatric rapid shallow breathing, rapid shallow breathing occlusion pressure [ROP] and maximal inspiratory pressure during an occlusion test [Pimax]) and weaning endurance indices (pressure-time index, tension-time index obtained from P(0.1) [TTI1] and from airway pressure [TTI2]) during spontaneous breathing. Performances of each TF index and combinations of them were calculated, and the best single index and combination were identified. Weaning endurance parameters (TTI1 and TTI2) were calculated and the best index was determined using a logistic regression model. Regression coefficients were estimated using the maximum likelihood ratio (LR) method. Hosmer-Lemeshow test was used to estimate goodness-of-fit of the model. An equation was constructed to predict weaning success. Finally, we calculated the performances of combinations of best TF indices and best endurance index. RESULTS: The best single TF index was ROP, the best TF combination was represented by the expression (0.66 x ROP) + (0.34 x Pimax), and the best endurance index was the TTI2, although their performance was poor. The best model resulting from the combination of these indices was defined by the following expression: (0.6 x ROP) - (0.1 x Pimax) + (0.5 x TTI2). This integrated index was a good weaning predictor (P < 0.01), with a LR+ of 6.4 and LR+/LR- ratio of 12.5. However, at a threshold value < 1.3 it was only predictive of weaning success (LR- = 0.5). CONCLUSION: The proposed combined index, incorporating endurance, was of modest value in predicting weaning outcome. This is the first report of the value of endurance parameters in predicting weaning success in children. Currently, clinical judgement associated with spontaneous breathing trials apparently remain superior.
Keywords
Child, Child, Preschool, Critical Care/methods, Female, Humans, Infant, Male, Models, Theoretical, Outcome Assessment (Health Care), Physical Endurance, Predictive Value of Tests, Prospective Studies, Respiratory Insufficiency/therapy, Respiratory Muscles/*physiopathology, ROC Curve, Ventilator Weaning/*methods
Create date
18/07/2019 12:48
Last modification date
21/08/2019 5:33
Usage data