LiJ, LiuK, LyuS, et al.Aerosol therapy in adult critically ill patients: A consensus statement regarding aerosol administration strategies during various modes of respiratory support. Ann Intensive Care, 2023; 13(1):63.
2.
PalmerLB, SmaldoneGC. The unfulfilled promise of inhaled therapy in ventilator-associated infections: Where do we go from here?. J Aerosol Med Pulm Drug Deliv, 2022; 35:11–24.
3.
LinHL, FinkJB, LiJ.The effect of inspiratory flows, inspiratory pause, and suction catheter on aerosol drug delivery with mesh nebulizers during mechanical ventilation. J Aerosol Med Pulmon Drug Deliv, 2024.
4.
JacquierS, LinHL, LiJ, et al.Effect of interrupting heated humidification on nebulized drug delivery efficiency, temperature, and absolute humidity during mechanical ventilation: A multi-lab in vitro. J Aerosol Med Pulmon Drug Deliv, 2024.
5.
AriA, AtalayOT, HarwoodR, et al.Influence of nebulizer type, position, and bias flow on aerosol drug delivery in simulated pediatric and adult lung models during mechanical ventilation. Respir Care, 2010; 55:845–851.
6.
AriA, FinkJB. Delivered dose with jet and mesh nebulisers during spontaneous breathing, noninvasive ventilation and mechanical ventilation using adult lung models. ERJ Open Res, 2021; 7:00027-2021.
7.
AshrafS, McPeckM, CucciaAD, SmaldoneGC. Comparison of vibrating mesh, jet, and breath-enhanced nebulizers during mechanical ventilation. Respir Care, 2020; 65:1419–1426.
8.
MillerDD, AminMM, PalmerLB, et al.Aerosol delivery and modern mechanical ventilation: In vitro/in vivo evaluation. Am J Respir Crit Care Med, 2003; 168:1205–1209.
9.
CucciaAD, AshrafS, McPeckM, et al.Wet-side breath-enhanced jet nebulization: Controlling drug delivery during mechanical ventilation. Respir Care, 2020; 65:1077–1089.
10.
McPeckM, MoonJ, JayakumaranJ, SmaldoneGC. Real-time analysis of dry-side nebulization with heated wire humidification during mechanical ventilation. Respir Care, 2023; 68:1213–1220.
