The role of three-dimensionality and alveolar pressure in the distribution and amplification of alveolar stresses

Sarabia-Vallejos, Mauricio A.; Zuniga, Matias; Hurtado, Daniel E

Abstract

Alveolar stresses are fundamental to enable the respiration process in mammalians and have recently gained increasing attention due to their mechanobiological role in the pathogenesis and development of respiratory diseases. Despite the fundamental physiological role of stresses in the alveolar wall, the determination of alveolar stresses remains challenging, and our current knowledge is largely drawn from 2D studies that idealize the alveolar septa! wall as a spring or a planar continuum. Here we study the 3D stress distribution in alveolar walls of normal lungs by combining ex-vivo micro-computed tomography and 3D finite-element analysis. Our results show that alveolar walls are subject to a fully 3D state of stresses rather than to a pure axial stress state. To understand the contributions of the different components and deformation modes, we decompose the stress tensor field into hydrostatic and deviatoric components, which are associated with isotropic and distortional stresses, respectively. Stress concentrations arise in localized regions of the alveolar microstructure, with magnitudes that can be up to 27 times the applied alveolar pressure. Interestingly, we show that the stress amplification factor strongly depends on the level of alveolar pressure, i.e, stresses do not scale proportional to the applied alveolar pressure. In addition, we show that 2D techniques to assess alveolar stresses consistently overestimate the stress magnitude in alveolar walls, particularly for lungs under high transpulmonary pressure. These findings take particular relevance in the study of stress-induced remodeling of the emphysematous lung and in ventilator-induced lung injury, where the relation between transpulmonary pressure and alveolar wall stress is key to understand mechanotransduction processes in pneumocytes.

Más información

Título según WOS: The role of three-dimensionality and alveolar pressure in the distribution and amplification of alveolar stresses
Título según SCOPUS: The role of three-dimensionality and alveolar pressure in the distribution and amplification of alveolar stresses
Título de la Revista: SCIENTIFIC REPORTS
Volumen: 9
Número: 1
Editorial: Nature Publishing Group
Fecha de publicación: 2019
Idioma: English
DOI:

10.1038/s41598-019-45343-4

Notas: ISI, SCOPUS