Extent and effect of covering laryngeal structures with synthetic laryngeal mucus via two different administration techniques

The first goal of this study was to investigate the coverage of laryngeal structures using two potential administration techniques for synthetic mucus: inhalation and lozenge ingestion. As a second research question, the study investigated the potential effects of these techniques on standardized vo...

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Veröffentlicht in:Journal of voice 2023-08
Hauptverfasser: Semmler, Marion, Lasar, Sarina, Kremer, Franziska, Reinwald, Laura, Wittig, Fiori, Peters, Gregor, Schraut, Tobias, Wendler, Olaf, Seyferth, Stefan, Schützenberger, Anne, Dürr, Stephan
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Sprache:eng
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Zusammenfassung:The first goal of this study was to investigate the coverage of laryngeal structures using two potential administration techniques for synthetic mucus: inhalation and lozenge ingestion. As a second research question, the study investigated the potential effects of these techniques on standardized voice assessment parameters. Fluorescein was added to throat lozenges and to an inhalation solution to visualize the coverage of laryngeal structures through blue light imaging. The study included 70 vocally healthy subjects. 50 subjects underwent administration via lozenge ingestion and 20 subjects performed the inhalation process. For the first research question, the recordings from the blue light imaging system were categorized to compare the extent of coverage on individual laryngeal structures objectively. Secondly, a standardized voice evaluation protocol was performed before and after each administration to determine any measurable effects of typical voice parameters. The administration via inhalation demonstrated complete coverage of all laryngeal structures, including the vocal folds, ventricular folds, and arytenoid cartilages, as visualized by the fluorescent dye. In contrast, the application of the lozenge predominantly covered the pharynx and laryngeal surface towards the aryepiglottic fold, but not the inferior structures. All in all, the comparison before and after administration showed no clear effect, although a minor deterioration of the acoustic signal was noted in the Shimmer and Cepstral Peak Prominence after the inhalation. Our findings indicate that the inhalation process is a more effective technique for covering deeper laryngeal structures such as the vocal folds and ventricular folds with synthetic mucus. This knowledge enables further in vivo studies on the role of laryngeal mucus in phonation in general, and how it can be substituted or supplemented for patients with reduced glandular activity as well as for heavy voice users. Anonymized data are available on request from the authors.
ISSN:0892-1997
1873-4588
DOI:10.1016/j.jvoice.2023.07.019