Quasi-static ultrasound elastography of ex-vivo porcine vocal folds during passive elongation and adduction

Raphael Lamprecht; Florian Scheible; Reinhard Veltrup; Casey Schaan; Marion Semmler; Jann-Ole Henningson; Alexander Sutor

doi:10.1016/j.jvoice.2022.11.033

Quasi-static ultrasound elastography of ex-vivo porcine vocal folds during passive elongation and adduction

J Voice. 2022 Dec 16:S0892-1997(22)00386-1. doi: 10.1016/j.jvoice.2022.11.033. Online ahead of print.

Authors

Raphael Lamprecht¹, Florian Scheible², Reinhard Veltrup³, Casey Schaan⁴, Marion Semmler⁵, Jann-Ole Henningson⁶, Alexander Sutor⁷

Affiliations

¹ Institute of Measurement and Sensor Technology, UMIT TIROL - Private University for Health Sciences and Health Technology, Hall in Tirol, Austria. Electronic address: raphael.lamprecht@umit-tirol.at.
² Institute of Measurement and Sensor Technology, UMIT TIROL - Private University for Health Sciences and Health Technology, Hall in Tirol, Austria. Electronic address: florian.scheible@umit-tirol.at.
³ Division of Phoniatrics and Pediatric Audiology, Department of Otorhinolaryngology, Head- and Neck surgery, University Hospital Erlangen, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany. Electronic address: reinhard.veltrup@uk-erlangen.de.
⁴ Division of Phoniatrics and Pediatric Audiology, Department of Otorhinolaryngology, Head- and Neck surgery, University Hospital Erlangen, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany. Electronic address: casey.schaan@fau.de.
⁵ Division of Phoniatrics and Pediatric Audiology, Department of Otorhinolaryngology, Head- and Neck surgery, University Hospital Erlangen, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany. Electronic address: marion.semmler@uk-erlangen.de.
⁶ Chair of Visual Computing, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany. Electronic address: jann-ole.henningson@fau.de.
⁷ Institute of Measurement and Sensor Technology, UMIT TIROL - Private University for Health Sciences and Health Technology, Hall in Tirol, Austria. Electronic address: alexander.sutor@umit-tirol.at.

PMID: 36529564
DOI: 10.1016/j.jvoice.2022.11.033

Abstract

Objectives: The elastic properties of the vocal folds have great influence on the primary sound and thus on the entire subsequent phonation process. Muscle contractions in the larynx can alter the elastic properties of the vocal fold tissue. Quasi-static ultrasound elastography is a non-destructive examination method that can be applied to ex-vivo vocal folds. In this work, porcine vocal folds were passively elongated and adducted and the changes of the elastic properties due to that manipulations were measured.

Methods: Manipulations were performed by applying force to sewn-in sutures. Elongation was achieved by a suture attached to the thyroid cartilage, which was pulled forward by defined weights. Adduction was effected by two sutures exerting torque on the arytenoid cartilage. A series of ten specimens was examined and evaluated using a quasi-static elastography algorithm. In addition, the surface stretch was measured optically using tattooed reference points.

Results: This study showed that the expected stiffening of the tissue during the manipulations can be measured using quasi-static ultrasound elastography. The measured effect of elongation and adduction, both of which result in stretching of the tissue, is stiffening. However, the relative change of specific manipulations is not the same for the same load on different larynges, but is rather related to stretch caused and other uninvestigated factors.

Conclusion: The passive elongation and adduction of vocal folds stiffen the tissue of the vocal folds and can be measured using ultrasound elastography.

Keywords: Adduction; Elastography; Elongation; Ex-vivo experiment; Porcine larynges; Vocal folds; Voice.