Wet-side breath-enhanced jet nebulization: Controlling drug delivery during mechanical ventilation

Abstract

BACKGROUND: The present study tested a novel nebulizer and circuit that use breath enhancement and breath actuation to minimize ventilator influences. The unique circuit design incorporates “wet-side” jet nebulization (the nebulizer connected to the humidifier outlet port) to prevent unpredictable aerosol losses with active humidification. The system was studied using several ventilator brands over a wide range of settings, with and without humidification. METHODS: During treatment, a 2-position valve directed all ventilator flow to the nebulizer, providing breath enhancement during inspiration. Aerosol was generated by air 50 psi 3.5 L/m triggered during inspiration by a pressure-sensitive cir-cuit. Particles were captured on an inhaled mass filter. Testing was performed by using active humidification or bypassable valved heat and moisture exchanger (HME) over a range of breathing patterns, ventilator modes, and bias flows (0.5-5.0 L/m). The nebulizer was charged with 6 mL of radiolabeled saline solution. Mass balance was performed by using a gamma camera. Tidal volume was monitored by ventilator volume (exhaled VT) and test lung volume. The Mann-Whitney test was used. RESULTS: A total of 6 mL was nebulized within 1 h. Inhaled mass (% neb charge): mean ± SD (all data) 31.1% ± 6.45; no. = 83. Small significant differences were seen with humidification for all modes (humidified 36.1% ± 5.60, no. = 26; bypassable valved HME 28.8% ± 5.51, no. = 57 [P