Biomechanical evaluation of human and porcine Auricular cartilage

Abstract: Objective The mechanical properties of normal auricular cartilage provide a benchmark against which to characterize changes in auricular structure/function due to genetic defects creating phenotypic abnormalities in collage subtypes. Such properties also provide inputs/targets for auricular reconstruction scaffold design. Several studies report the biomechanical properties for septal, costal, and articular cartilage. However, analogous data for auricular cartilage is lacking. Therefore, our aim in this study w… Show more

“…Since AUR cartilage displays a different tissue composition and architecture to articular cartilage, it cannot be assumed that models used for articular cartilage would yield relevant results for AUR. Only very recently, a first model has been proposed for AUR cartilage (Zopf et al, 2015).…”

“…The structure-function relationship linking composition and architecture to mechanical competency has been established for these cartilage subtypes (Humzah and Soames, 1988; Mow and Guo, 2002). The mechanical properties of AUR cartilage are, however, sparsely investigated (Naumann et al, 2002), and limited data are available for human cartilage Zopf et al, 2015). Unlike hyaline and fibrocartilage, AUR cartilage contains large amounts of elastin (ELN) fibers.…”

Mechanical and biochemical mapping of human auricular cartilage for reliable assessment of tissue-engineered constructs

“…Since AUR cartilage displays a different tissue composition and architecture to articular cartilage, it cannot be assumed that models used for articular cartilage would yield relevant results for AUR. Only very recently, a first model has been proposed for AUR cartilage (Zopf et al, 2015).…”

“…The structure-function relationship linking composition and architecture to mechanical competency has been established for these cartilage subtypes (Humzah and Soames, 1988; Mow and Guo, 2002). The mechanical properties of AUR cartilage are, however, sparsely investigated (Naumann et al, 2002), and limited data are available for human cartilage Zopf et al, 2015). Unlike hyaline and fibrocartilage, AUR cartilage contains large amounts of elastin (ELN) fibers.…”

Mechanical and biochemical mapping of human auricular cartilage for reliable assessment of tissue-engineered constructs

“…The maximum tensile strength and young’s modulus under tension was calculated with an observed young’s modulus of 5.02 ± 0.04 MPa 4. Similarly, Zopf et al evaluated the biomechanical auricular cartilage of four patients, observing that the whole ear exhibited nonlinear strain-stiffening elastic behaviour that is similar to other soft tissues in the body 24. To date one study has evaluated the mechanical properties of fresh auricular tissue based on the different region of the auricle.…”

Biomechanical Characterisation of the Human Auricular Cartilages; Implications for Tissue Engineering

“…In addition, the FMT was glued to cylinders of cartilage of equivalent sizes, that is 1.0 mm in diameter and 1.0 mm or 1.5 mm of length. All cartilage was harvested from a commercially obtained pig ear and was kept well hydrated with saline distributed by an aerosol can throughout the measurements . Moreover, the commercially available alloplastic Round Window Soft‐Coupler (RWSC) (RW‐Soft‐Coupler ® , MedEl, Innsbruck, Austria) was glued with its base to the rear side of the FMT.…”

Influence of backside loading on the floating mass transducer: An in vitro experimental study