Design of a mechanical larynx with agarose as a soft tissue substitute for vocal fold applications
Choo, J.Q. Lau, D.P.C. Chui, C.K. Yang, T. Chng, C.B. Teoh, S.H.
Choo, J.Q.
Lau, D.P.C.
Yang, T.
Chng, C.B.
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Abstract
Mechanical and computational models consisting of flow channels with convergent and oscillating constrictions have been applied to study the dynamics of human vocal fold vibration. To the best of our knowledge, no mechanical model has been studied using a material substitute with similar physical properties to the human vocal fold for surgical experimentation. In this study, we design and develop a mechanical larynx with agarose as a vocal fold substitute, and assess its suitability for surgical experimentation. Agarose is selected as a substitute for the vocal fold as it exhibits similar nonlinear hyperelastic characteristics to biological soft tissue. Through uniaxial compression and extension tests, we determined that agarose of 0.375% concentration most closely resembles the vocal fold mucosa and ligament of a 20-year old male for small tensile strain with an R2 value of 0.9634 and root mean square error of 344.05 ± 39.84 Pa. Incisions of 10 mm lengthwise and 3 mm in depth were created parallel to the medial edge on the superior surface of agar phantom. These were subjected to vibrations of 80, 130, and 180 Hz, at constant amplitude of 0.9 mm over a period of 10 min each in the mechanical larynx model. Lateral expansion of the incision was observed to be most significant for the lower frequency of 80 Hz. This model serves as a basis for future assessments of wound closure techniques during microsurgery to the vocal fold. Copyright © 2010 by ASME.
Keywords
Agarose, Mechanical larynx, Surgical experimentation, Vocal fold substitute
Source Title
Journal of Biomechanical Engineering
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Series/Report No.
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Date
2010-06
DOI
10.1115/1.4001161
Type
Article