Effect of inspiratory flow waveform on work on endotracheal

Intensive care medicine · May 1999

Effect of inspiratory flow waveform on work on endotracheal tubes: a model analysis.

This model analysis aimed to predict the impact of different inspiratory flow wave-forms, i. e., constant, sinusoidal, and two linearly decreasing flows, on the resistive work (Wres) performed on endotracheal tubes. ⋯ These findings have major clinical implications: at any given ventilator setting, not only the size of the endotracheal tube but also the inspiratory flow waveform must be taken into account to interpret the values of Wres and hence of the total work of breathing.

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- G Polese, E D'Angelo, A Rossi, and J Milic-Emili.
- Centro Regionale Fibrosi Cistica, Azienda Ospedaliera di Verona, Italy. gpolese@qubisoft.it
- Intensive Care Med. 1999 May 1; 25 (5): 503-7.
ObjectiveThis model analysis aimed to predict the impact of different inspiratory flow wave-forms, i. e., constant, sinusoidal, and two linearly decreasing flows, on the resistive work (Wres) performed on endotracheal tubes.DesignModel analysis.ResultsModel analysis predicts that: (i) minimal Wres is obtained with the constant flow; (ii) for any given tidal volume/inspiratory duration (V(T)/T(I), mean inspiratory flow), Wres increases with decreasing tube size; (iii) for any given inspiratory flow waveform, Wres increases with increasing V(T)/T(I), being lowest with constant flow.ConclusionsThese findings have major clinical implications: at any given ventilator setting, not only the size of the endotracheal tube but also the inspiratory flow waveform must be taken into account to interpret the values of Wres and hence of the total work of breathing.

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Effect of inspiratory flow waveform on work on endotracheal tubes: a model analysis.

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