Published in:
01-08-2008 | Original
Carbon dioxide rebreathing during non-invasive ventilation delivered by helmet: a bench study
Authors:
Francesco Mojoli, Giorgio A. Iotti, Maddalena Gerletti, Carlo Lucarini, Antonio Braschi
Published in:
Intensive Care Medicine
|
Issue 8/2008
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Abstract
Objective
To define how to monitor and limit CO2 rebreathing during helmet ventilation.
Design
Physical model study.
Setting
Laboratory in a university teaching hospital.
Interventions
We applied pressure-control ventilation to a helmet mounted on a physical model. In series 1 we increased CO2 production (V'CO2) from 100 to 550 ml/min and compared mean inhaled CO2 (iCO2,mean) with end-inspiratory CO2 at airway opening (eiCO2), end-tidal CO2 at Y-piece (yCO2) and mean CO2 inside the helmet (hCO2). In series 2 we observed, at constant V'CO2, effects on CO2 rebreathing of inspiratory pressure, respiratory mechanics, the inflation of cushions inside the helmet and the addition of a flow-by.
Measurements and results
In series 1, iCO2,mean linearly related to V'CO2. The best estimate of CO2 rebreathing was provided by hCO2: differences between iCO2,mean and hCO2, yCO2 and eiCO2 were 0.0 ± 0.1, 0.4 ± 0.2 and −1.3 ± 0.5%. In series 2, hCO2 inversely related to the total ventilation (MVtotal) delivered to the helmet–patient unit. The increase in inspiratory pressure significantly increased MVtotal and lowered hCO2. The low lung compliance halved the patient:helmet ventilation ratio but led to minor changes in MVtotal and hCO2. Cushion inflation, although it decreased the helmet's internal volume by 33%, did not affect rebreathing. A 8-l/min flow-by effectively decreased hCO2.
Conclusions
During helmet ventilation, rebreathing can be assessed by measuring hCO2 or yCO2, but not eiCO2. It is directly related to V'CO2, inversely related to MVtotal and can be lowered by increasing inspiratory pressure or adding a flow-by.