Meixin Wang scite author profile

In native tissues, microscale variations in the extracellular matrix (ECM) structure can drive different cellular behaviors. Although control over ECM structure could prove useful in tissue engineering and in studies of cellular behavior, isotropic 3D matrices poorly replicate variations in local microenvironments. In this paper, we demonstrate a method to engineer local variations in the density and size of collagen fibers throughout 3D tissues. The results showed that, in engineered multiphase tissues, the structures of collagen fibers in both the bulk ECM phases (as measured by mesh size and width of fibers) as well as at tissue interfaces (as measured by density of fibers and thickness of tissue interfaces) could be modulated by varying the collagen concentrations and gelling temperatures. As the method makes use of a previously published technique for tissue bonding, we also confirmed that significant adhesion strength at tissue interfaces was achieved under all conditions tested. Hence, this study demonstrates how collagen fiber structures can be engineered within all regions of a tightly integrated multiphase tissue scaffold by exploiting knowledge of collagen assembly.

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Dynamic Hydrogels: Switching of 3D Microenvironments Using Two‐Component Naturally Derived Extracellular Matrices (Adv. Mater. 6/2010)

Gillette

Jensen

Wang

et al. 2010

Advanced Materials

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Reversible switching of 3D microenvironments in extracellular matrices and effects on collagen fibers and cell morphology

Gillette

Jensen

Wang

et al. 2010

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Meixin Wang

Dynamic Hydrogels: Switching of 3D Microenvironments Using Two‐Component Naturally Derived Extracellular Matrices

Engineering extracellular matrix structure in 3D multiphase tissues

Dynamic Hydrogels: Switching of 3D Microenvironments Using Two‐Component Naturally Derived Extracellular Matrices (Adv. Mater. 6/2010)

Reversible switching of 3D microenvironments in extracellular matrices and effects on collagen fibers and cell morphology

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