• Title of article

    Biomechanics of the Cricoarytenoid Joint: Three-Dimensional Imaging and Vector Analysis

  • Author/Authors

    Claudio Storck، نويسنده , , Philipp Juergens، نويسنده , , Claude Fischer، نويسنده , , et al، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2011
  • Pages
    5
  • From page
    406
  • To page
    410
  • Abstract
    Objectives/Hypothesis Laryngeal framework surgery requires a good understanding of the biomechanics of the cricoarytenoid (CA) joint, the precise function of which is still only poorly understood. The aim of the study was (1) to show that, by superimposing two or more three-dimensional (3D) images, we can visualize the exact position of the arytenoid cartilages within the larynx at different phases of their movement; and (2) to demonstrate that it is possible to analyze the arytenoid cartilage movements mathematically with the help of vector analysis. Study Design In vitro cadaver study. Methods Twenty fresh and intact cadaver larynges were scanned by high-resolution computerized tomography with the arytenoid cartilages in “respiratoryâ€‌ position and in “phonatoryâ€‌ position. The two positions were superimposed and rendered in 3D with MIMICS (Materialise Interactive Medical Image Control System, Leuven, Belgium). The spatial trajectory of the arytenoid cartilage movements was calculated with vector analysis. Results The movement from the “respiratoryâ€‌ to the “phonatoryâ€‌ position has three components: (1) an inward rocking action around the longitudinal CA joint; (2) a forward sliding movement along the longitudinal axis of the CA joint; and (3) an inward rotation around a virtual axis that runs perpendicular to the CA joint axis. Conclusions Superimposing 3D images of the larynx with the help of the software package MIMICS allows us to visualize and to analyze mathematically the trajectory of the arytenoid cartilage. The arytenoid cartilages rock inward, slide forward, and rotate inward when they move from the “respiratoryâ€‌ to the “phonatoryâ€‌ position.
  • Keywords
    Biomechanics , MIMICS three-dimensional , Larynx cricoarytenoid joint
  • Journal title
    Journal of Voice
  • Serial Year
    2011
  • Journal title
    Journal of Voice
  • Record number

    1280733