Archive/Low-Frequency, Pulsatile Delivery of Water Vapor to the Maxillary Sinus: Feasibility, Limitations, and Design Implications
Low-Frequency, Pulsatile Delivery of Water Vapor to the Maxillary Sinus: Feasibility, Limitations, and Design Implications
Amr Seifelnasr, Xiuhua Si, Jinxiang Xi
July 8, 2026
en

Abstract

Efficient aerosol delivery to the maxillary sinuses remains challenging because narrow ostia limit sinus entry. This in vitro study evaluated whether low-frequency, large-amplitude pulsatile flow can deliver humidifier-generated water aerosols to the maxillary sinuses, compared retention with e-vapor under identical conditions, and identified setup modifications required for water aerosol transport. Experiments used three transparent anatomically realistic sinonasal models: two single-passage models with narrow-long (NL) and wide-short (WS) ostial geometries, and one dual-passage dual-maxillary-sinus (RL) model. Water aerosols and e-vapor were delivered using a modified servo-actuated syringe generator under fixed conditions: 50 mL stroke volume, 0.33 Hz frequency, 1 L/min vacuum-induced flow, and 1.5 min delivery. Water aerosols were larger than e-vapor aerosols (D50 = 5.553 µm vs. 3.394 µm) and required setup modification because of greater wall interactions, condensation, coalescence, and transport losses. Pulsatile delivery achieved plume entry into all tested maxillary sinuses. E-vapor showed greater retained mass than water aerosols in NL (1.060 ± 0.152 vs. 0.540 ± 0.089 mg) and WS (0.800 ± 0.071 vs. 0.520 ± 0.110 mg). Water-sensitive Sar-Gel visualization confirmed bilateral water aerosol retention in RL. These findings support pulsatile delivery as a feasible strategy for water aerosol transport to the maxillary sinuses but with a lower efficiency than e-vapor aerosols.

IPC Classification

A61B60

Keywords

low-frequencypulsatiledeliverywatervapormaxillarysinusfeasibilitylimitationsdesignimplicationsinternationaljournalmedicaldevicesefficientaerosolsinusesremainschallengingbecausenarrowostialimit
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