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Characterizing the viscoelasticity of extra- and intra-parenchymal lung bronchi

Samaneh Sattari, Mona Eskandari

2020Journal of the mechanical behavior of biomedical materials/Journal of mechanical behavior of biomedical materials36 citationsDOIOpen Access PDF

Abstract

Pulmonary disease is known to cause remodeling of tissue structure, resulting in altered viscoelastic properties; yet the foundation for understanding this phenomenon is still nascent and will enable scientific insights regarding lung functionality. In order to characterize the viscoelastic response of pulmonary airways, uniaxial tensile experiments are conducted on porcine extra- and intra-parenchymal bronchial regions, measuring both axially and circumferentially oriented tissue. Anisotropic and heterogeneous effects on preconditioning and hysteresis are substantial, linking to energy dissipation expectancies. Stress relaxation is rheologically modeled using several classical configurations of discrete spring and dashpot elements; among them, Standard Linear Solid (SLS) and Maxwell-Weichart exhibit better fit performance. Enhanced fractional order derivative SLS (FSLS) model is also evaluated through use of a hybrid spring-pot of order α. FSLS outperforms the conventional models, demonstrating superior representation of the stress-relaxation curve's initial value and non-linear asymptotic decent. FSLS parameters exhibit notable orientation- and region-specific values, trending with observed tissue structural constituents, such as glycosaminoglycan and collagen. To the best of our knowledge, this work is the first to characterize proximal and distal bronchial energy efficiency and contextualize tissue biochemical composition in view of experimental measures and viscoelastic trends. Results provide a foundation for future investigations, particularly for understanding the role of viscoelasticity in diseased states.

Topics & Concepts

ViscoelasticityStress relaxationAnisotropyRelaxation (psychology)DissipationMaterials scienceMechanicsBiological systemPhysicsThermodynamicsComposite materialBiologyCreepNeuroscienceQuantum mechanicsElasticity and Material ModelingBrake Systems and Friction AnalysisHydraulic and Pneumatic Systems
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