Mechanical regulation of tissues that reproduces wrinkle patterns of gastrointestinal tracts

Kai, Yuto

doi:10.1088/1478-3975/ac6042

Phys. Biol.

2022

DOI: 10.1088/1478-3975/ac6042

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Mechanical regulation of tissues that reproduces wrinkle patterns of gastrointestinal tracts

Yuto Kai¹

Abstract: Gastrointestinal tracts exhibit a number of surface morphologies including zigzags, labyrinths, protrusions, and invaginations which are associated with digestive functions and are suggested to be formed by mechanical mechanisms. In this study, we investigate loading conditions and mechanical properties of tissues that reproduce different wrinkle patterning of gastrointestinal tracts on cell culture platforms. Numerical simulations of wrinkling dynamics are performed for a layered model consisting of an anisot… Show more

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Cited by 1 publication

References 43 publications

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Toward new scaling laws for wrinkling in biologically relevant fiber-reinforced bilayers

Mirandola,

Cutolo,

Carotenuto

et al. 2023

Journal of Applied Physics

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Wrinkling, creasing, and folding are frequent phenomena encountered in biological and man-made bilayers made by thin films bonded to thicker and softer substrates often containing fibers. Paradigmatic examples of the latter are the skin, the brain, and arterial walls, for which wiggly cross sections are detected. Although experimental investigations on corrugation of these and analog bilayers would greatly benefit from scaling laws for prompt comparison of the wrinkling features, neither are they available nor have systematic approaches yielding to such laws ever been provided before. This gap is filled in this paper, where a uniaxially compressed bilayer formed by a thin elastic film bonded on a hyperelastic fiber-reinforced substrate is considered. The force balance at the film–substrate interface is here analytically and numerically investigated for highly mismatched film–substrates. The onset of wrinkling is then characterized in terms of both the critical strain and its corresponding wavenumber. Inspired by the asymptotic laws available for neo-Hookean bilayers, the paper then provides a systematic way to achieve novel scaling laws for the wrinkling features for fiber-reinforced highly mismatched hyperelastic bilayers. Such novel scaling laws shed light on the key contributions defining the response of the bilayer, as it is characterized by a fiber-induced complex anisotropy. Results are compared with finite element analyses and also with outcomes of both existing linear models and available ad hoc scalings. Furthermore, the amplitude, the global maximum and minimum of ruga occurring under increasing compression spanning the wrinkling, period doubling, and folding regimes are also obtained.

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Toward new scaling laws for wrinkling in biologically relevant fiber-reinforced bilayers

Mirandola,

Cutolo,

Carotenuto

et al. 2023

Journal of Applied Physics

View full text Add to dashboard Cite

show abstract

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Mechanical regulation of tissues that reproduces wrinkle patterns of gastrointestinal tracts

Cited by 1 publication

References 43 publications

Toward new scaling laws for wrinkling in biologically relevant fiber-reinforced bilayers

Toward new scaling laws for wrinkling in biologically relevant fiber-reinforced bilayers

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