Relative Stiffness Measurements of Cell-embedded Hydrogels by Shear Rheology in vitro

Relative Stiffness Measurements of Cell-embedded Hydrogels by Shear Rheology in vitro

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Hydrogel systems composed of purified extracellular matrix (ECM) components (such as collagen, fibrin, Matrigel, and methylcellulose) are a mainstay of cell and molecular biology research.They are used extensively in many applications including tissue regeneration platforms, studying organ development, and pathological disease models such as cancer.Both the biochemical and biomechanical properties influence cellular and tissue here compatibility, and these properties are altered in pathological disease progression (Cox and Erler, 2011; Bonnans et al.

, 2014).The use of red pygmy dogwood cell-embedded hydrogels in disease models such as cancer, allow the interrogation of cell-induced changes in the biomechanics of the microenvironment (Madsen et al., 2015).

Here we report a simple method to measure these cell-induced changes in vitro using a controlled strain rotational rheometer.