Mechanical Characterization and Constitutive Modeling of Human Trachea: Age and Gender Dependency

Mechanical Characterization and Constitutive Modeling of Human Trachea: Age and Gender Dependency

Tracheal disorders can usually reduce the free lumen diameter or wall stiffness, and hence limit airflow. Trachea tissue engineering seems a promising treatment for such disorders. The required mechanical compatibility of the prepared scaffold with native trachea necessitates investigation of the me...

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Bibliographic Details
Published in:Materials Vol. 9; no. 6; p. 456
Main Authors: Safshekan, Farzaneh, Tafazzoli-Shadpour, Mohammad, Abdouss, Majid, Shadmehr, Mohammad B
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 08-06-2016
MDPI
Subjects:
Age
aging
Bending stresses
Cartilage
Connective tissue
Disorders
Gender
hyperelastic model
Mathematical models
mechanical behavior
Mechanical properties
Respiration
Scaffolds
Smooth muscle
Surgery
Tissue engineering
Trachea
trachea constituents
Transplants & implants
Iran
hyperelastic model
trachea constituents
connective tissue
cartilage
smooth muscle
aging
mechanical behavior
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Summary:Tracheal disorders can usually reduce the free lumen diameter or wall stiffness, and hence limit airflow. Trachea tissue engineering seems a promising treatment for such disorders. The required mechanical compatibility of the prepared scaffold with native trachea necessitates investigation of the mechanical behavior of the human trachea. This study aimed at mechanical characterization of human tracheas and comparing the results based on age and gender. After isolating 30 human tracheas, samples of tracheal cartilage, smooth muscle, and connective tissue were subjected to uniaxial tension to obtain force-displacement curves and calculate stress-stretch data. Among several models, the Yeoh and Mooney-Rivlin hyperelastic functions were best able to describe hyperelastic behavior of all three tracheal components. The mean value of the elastic modulus of human tracheal cartilage was calculated to be 16.92 ± 8.76 MPa. An overall tracheal stiffening with age was observed, with the most considerable difference in the case of cartilage. Consistently, we noticed some histological alterations in cartilage and connective tissue with aging, which may play a role in age-related tracheal stiffening. No considerable effect of gender on the mechanical behavior of tracheal components was observed. The results of this study can be applied in the design and fabrication of trachea tissue engineering scaffolds.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma9060456