TY - JOUR
AU1 - Hess, Dean R.
AU2 - Dillman, Christine
AU3 - Kacmarek, Robert M.
AB - ObjectiveTo determine the effect of inspiratory time and inspiratory flow pattern on albuterol delivery by aerosol during mechanical ventilation.DesignA ventilator was connected to a lung model and set to deliver a tidal volume of 0.6 l, PEEP 5 cmH2O, and respiratory rate of 15/min. We evaluated inspiratory times of 1 and 2 s, lung mechanics of 0.05 l/cmH2O compliance and 50 cmH2O/l/s resistance, or 0.02 l/cmH2O compliance and 5 cmH2O/l/s resistance, and three inspiratory flow patterns (constant flow volume-controlled ventilation, descending ramp flow volume-controlled ventilation, and pressure-controlled ventilation). Albuterol was delivered into the ventilator circuit by a nebulizer containing 5 mg (4 ml) albuterol or a pMDI and spacer (four actuations; 360 µg). A filter between the Y-piece and the lung model collected the aerosol, which was analyzed for albuterol by spectrophotometry.ResultsFor the nebulizer there were significant differences in albuterol delivered for inspiratory time, flow pattern, and lung mechanics. For the pMDI there were no significant differences for the amount of albuterol delivered for inspiratory time, flow pattern, or lung mechanics.ConclusionsAlbuterol delivery by nebulizer is affected by inspiratory time and inspiratory flow pattern. When a pMDI is used, the amount of albuterol delivered is not affected by inspiratory flow pattern or inspiratory time.
TI - In vitro evaluation of aerosol bronchodilator delivery during mechanical ventilation: pressure-control vs. volume control ventilation
JF - Intensive Care Medicine
DO - 10.1007/s00134-003-1792-1
DA - 2003-07-01
UR - https://www.deepdyve.com/lp/springer-journals/in-vitro-evaluation-of-aerosol-bronchodilator-delivery-during-DQUR3Ya0q8
SP - 1145
EP - 1150
VL - 29
IS - 7
DP - DeepDyve
ER -