Publications by authors named "Emily A Gonnerman"

Strategies to integrate instructive biomolecular signals into a biomaterial are becoming increasingly complex and bioinspired. While a large majority of reports still use repeated treatments with soluble factors, this approach can be prohibitively costly and difficult to translate for applications where spatial control over signal presentation is necessary. Recent efforts have explored the use of covalent immobilization of biomolecules to the biomaterial, via both bulk (ubiquitous) as well as spatially-selective light-based crosslinking, as a means to both enhance stability and bioactivity.

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Arrays of 3D macroporous collagen scaffolds with orthogonal gradations of structural and biomolecular cues are described. Gradient maker technology is applied to create linear biomolecular gradients within microstructurally distinct sections of a single CG scaffold array. The array set up is used to explore cell behaviors including proliferation and regulation of stem cell fate.

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Biomaterials for myocardial tissue engineering must balance structural, mechanical and bioactivity concerns. This work describes the interaction between HL-1 cardiomyocytes and a series of geometrically anisotropic collagen-GAG (CG) scaffolds with aligned tracks of ellipsoidal pores designed to mimic elements of the native geometric anisotropy of cardiac tissue. Here we report the role scaffold geometric anisotropy and pore size plays in directing cardiomyocyte bioactivity.

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