Haitham Saeed Abdel aziz

Lecturer

Fill volume, humidification and heat effects on aerosol delivery and fugitive emissions during noninvasive ventilation

Research Abstract

The aim of this study was to determine the-effect of fill-volume, heat-and-humidification on aerosoldelivery and fugitive-aerosol-emissions from nebulizers placed proximal to the patient in single-limbnon-invasive-ventilation (NIV) adult-model. We compared a vibrating-mesh-nebulizer (VMN) and jet-nebulizer (JN) placed proximal to breathingsimulator with adult-settings (I:E 1:3, 15 breaths.min 1 , tidal-volume 500 mL). Ventilator was set to (20 cm.H 2 O peak-inspiratory-pressure, peak-expiratory-pressure 5cmH O) in spontaneous-mode. Each nebulizer was used to compare total-inhaled-dose (TID) collected in inhalation-filter of 3 2 different fill-volumes (5000 mg salbutamol diluted to 1, 2 and 4 mL using normal-saline) and 3 heat-andhumidification-conditions (no-heat and no-humidification, humidification with no-heat and heat-withhumidification) using 1 mL respirable-solution containing 5000 mg salbutamol diluted to 2 mL using normal-saline. TID with 1, 2 and 4 mL fill-volumes were similar with VMN but increased upto twofold with JN (p < 0.01). No significant effect of humidification or heat on TID was found for both VMN and JN. Upto 50% of emitted-aerosol escaped through the fixed-orifice-leak. Efficiency of JN varied with fill-volume. In contrast, the lower-residual-volume of VMN produced similar efficiency across fill-volumes with higher TID than JN. No need to switch-off the humidifier for aerosol-delivery in NIV, since variations of heat-and-humidity did not impact TID with both nebulizer. However, fugitive-aerosol-emissions represent a potential-risk to both healthcare-providers and acutecare-environment.

Research Keywords

Keywords: Nebulizer Non-invasive ventilation Fill volume Humidification Heat Fugitive aerosol

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