Keywords

hydrogel, mucus, mucus plugging, photograft, tracheostomy tube, tympanostomy tube, zwitterion

Abstract

Objective

To determine the effects of zwitterionic hydrogel films on mucus contact angles, flow, and stasis with respect to medical polymer surfaces, both flat and tubular.

Methods

A zwitterionic hydrogel thin film was photografted onto medical rubber surfaces and compared against non-zwitterionic hydrogel thin films and untreated surfaces to determine its impact on mucus contact angles, mucus flow on sheets and tubes, and mucus plugging.

Results

Zwitterionic and conventional hydrogel films significantly reduce the mucus contact angles and the tilt required to initiate mucus flow on sheets and in tubular systems. Preliminary experiments show that these films may also shorten the time required for a mucus-plugged tube to unplug when exposed to saline.

Conclusion

Zwitterionic and conventional hydrogel films on typical medical surfaces reduce resistance to mucus flow, increase mucus discharge, and may facilitate faster unplugging of dried mucus. These effects are the most pronounced on tubes of larger inner diameter (greater than 2.6 mm) and tend to dissipate for tubes of smaller diameter. These results may help guide future improvements to medical tubes intended to discharge mucus and ventilate, resulting in fewer complications for patients.

Level of Evidence

Level 2, randomized individual trial.

Original Publication Citation

Horne, R., Escudero, C., Ellerman, M., Guymon, C.A. and Hansen, M. (2025), Enhancing Mucus Flow and Clearance by Grafting Zwitterionic Hydrogel Films to Luminal Surfaces. Laryngoscope Investigative Otolaryngology, 10: e70118. https://doi.org/10.1002/lio2.70118

Document Type

Peer-Reviewed Article

Publication Date

2025-03-07

Publisher

Laryngoscope Investigative Otolaryngology

Language

English

College

Ira A. Fulton College of Engineering

Department

Chemical Engineering

University Standing at Time of Publication

Full Professor

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