A pilot study comparing mechanical properties of tissue-engineered cartilages and various endogenous cartilages

“…The authors reported that the elastic modulus increased with increasing age in all the native cartilage samples, except the preauricular tags, and it was the highest in the costal cartilage (361 ± 372 kPa), followed by microtia, preauricular appendages, normal conchal cartilage (31.8 ± 18 kPa), and the TE pellet. 26 A similar pattern was observed in the stressrelaxation rates. The highest value was seen in costal cartilage (64.7 kPa/s), followed by microtia, preauricular, and conchal cartilage (15.1 kPa/s).…”

“…All the native samples were compared with tissue-engineered (TE) cartilage generated from umbilical cord MSCs to identify the best candidate for reconstruction purposes. The authors reported that the elastic modulus increased with increasing age in all the native cartilage samples, except the preauricular tags, and it was the highest in the costal cartilage (361±372 kPa), followed by microtia, preauricular appendages, normal conchal cartilage (31.8±18 kPa), and the TE pellet 26 . A similar pattern was observed in the stress-relaxation rates.…”

“…Auricular cartilage has viscoelastic properties and is primarily composed of collagen and elastin fibers that encompass a proteoglycan gel. 26,27 This structural composition allows the cartilage to retain water, which translates into an elastic response to load. Elastin is the major contributor to the intrinsic mechanical properties of the auricular cartilage.…”

“…The bulk moduli and Young's moduli were higher than rat/rabbit but lower than pig/cow. 31 Lastly, Pappa et al 26 utilized atomic force microscopy (MFP-3DBio; Asylum Research, Santa Barbara, CA) and compression testing (Bose ElectroForce 3100, Framingham, MA) to determine the elastic moduli and stress-relaxation rates of cartilage samples from various ages of patients from the normal conchal bowl, microtia ears, and preauricular tags. Costal cartilage was also characterized because it is used in autologous reconstruction.…”

“…The TE pellet exhibited the lowest value (7.6 ± 1.1 kPa/s). 26 The geometric stiffness of the whole ear is another mechanical parameter reported in the literature. Zopf et al 34 used an MTS Alliance RT/30 testing machine, equipped with a 500 N load cell, to apply load at a constant displacement rate of 10 mm/min to the entire, intact ear.…”

Tissue Engineering Auricular Cartilage: A Review of Auricular Cartilage Characteristics and Current Techniques for Auricular Reconstruction

“…The authors reported that the elastic modulus increased with increasing age in all the native cartilage samples, except the preauricular tags, and it was the highest in the costal cartilage (361 ± 372 kPa), followed by microtia, preauricular appendages, normal conchal cartilage (31.8 ± 18 kPa), and the TE pellet. 26 A similar pattern was observed in the stressrelaxation rates. The highest value was seen in costal cartilage (64.7 kPa/s), followed by microtia, preauricular, and conchal cartilage (15.1 kPa/s).…”

“…All the native samples were compared with tissue-engineered (TE) cartilage generated from umbilical cord MSCs to identify the best candidate for reconstruction purposes. The authors reported that the elastic modulus increased with increasing age in all the native cartilage samples, except the preauricular tags, and it was the highest in the costal cartilage (361±372 kPa), followed by microtia, preauricular appendages, normal conchal cartilage (31.8±18 kPa), and the TE pellet 26 . A similar pattern was observed in the stress-relaxation rates.…”

“…Auricular cartilage has viscoelastic properties and is primarily composed of collagen and elastin fibers that encompass a proteoglycan gel. 26,27 This structural composition allows the cartilage to retain water, which translates into an elastic response to load. Elastin is the major contributor to the intrinsic mechanical properties of the auricular cartilage.…”

“…The bulk moduli and Young's moduli were higher than rat/rabbit but lower than pig/cow. 31 Lastly, Pappa et al 26 utilized atomic force microscopy (MFP-3DBio; Asylum Research, Santa Barbara, CA) and compression testing (Bose ElectroForce 3100, Framingham, MA) to determine the elastic moduli and stress-relaxation rates of cartilage samples from various ages of patients from the normal conchal bowl, microtia ears, and preauricular tags. Costal cartilage was also characterized because it is used in autologous reconstruction.…”

“…The TE pellet exhibited the lowest value (7.6 ± 1.1 kPa/s). 26 The geometric stiffness of the whole ear is another mechanical parameter reported in the literature. Zopf et al 34 used an MTS Alliance RT/30 testing machine, equipped with a 500 N load cell, to apply load at a constant displacement rate of 10 mm/min to the entire, intact ear.…”

Tissue Engineering Auricular Cartilage: A Review of Auricular Cartilage Characteristics and Current Techniques for Auricular Reconstruction

Manufacturing of Multilayer Replicas of Human Costal Cartilage for Realistic Medical Planning

Articular cartilage regeneration and tissue engineering models: a systematic review