4.7 Article

Modeling biphasic hydrogels under spherical indentation: Application to soft tissues

Journal

MECHANICS OF MATERIALS
Volume 161, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.mechmat.2021.103987

Keywords

Indentation; Rheometer; Elasticity imaging; Gelatin; Hydrogel; Biphasic; Poroviscoelastic; Finite element

Funding

  1. National Cancer Institute, Bethesda, MD, USA [R0I CA082497]

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In this study, the mechanical behavior of gelatin hydrogels was examined through indentation tests using a biphasic poroviscoelastic (BPVE) material model and finite element analysis. The relaxed shear modulus was found to be an intrinsic material property for soft tissues and hydrogels, suitable for comparison with results obtained from other experiments.
The mechanical characterization of hydrated soft materials, such as tissues and hydrogels, plays an important role in the growing bioengineering and medical fields. Indentation techniques have been successfully employed to determine the mechanical properties of biomaterials using elastic, viscoelastic or poroviscoelastic theories partly because of their inherent simplicity and partly because the material configuration for in vivo or in vitro mechanical testing does not permit other experimental methods. In this study, we examine the mechanical behavior of gelatin hydrogels through two types of indentation tests, namely indentation-load relaxation and quasistatic indentation. The material properties extracted from the rheometer-stress relaxation experiment are used in a biphasic poroviscoelastic (BPVE) material model to simulate the indentation tests using finite element analysis (FEA). Parametric studies using FEA of the indentation-load relaxation experiment are used to estimate the hydraulic permeability and the largest time constant accurately. Force response predicted from FEA of indentation experiments using BPE and BPVE models demonstrate the significant role played by the flow-independent solid matrix relaxation behavior of soft polymeric media emphasizing the need to use a BPVE model. Investigation of the spatiotemporal variations in the pore pressure and solid matrix stress within the hydrogel and near the indenter surface provides clues to the differences seen in the estimated relaxation modulus from various tests (rheometer and indentation). From the studies on indentation testing of gelatin hydrogels, the relaxed shear modulus is an intrinsic material property of soft-tissues and hydrogels that is found to be the most appropriate material property for comparison with those obtained using other experiments.

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