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Merck
  • Directed endothelial cell morphogenesis in micropatterned gelatin methacrylate hydrogels.

Directed endothelial cell morphogenesis in micropatterned gelatin methacrylate hydrogels.

Biomaterials (2012-09-29)
Mehdi Nikkhah, Nouran Eshak, Pinar Zorlutuna, Nasim Annabi, Marco Castello, Keekyoung Kim, Alireza Dolatshahi-Pirouz, Faramarz Edalat, Hojae Bae, Yunzhi Yang, Ali Khademhosseini
초록

Engineering of organized vasculature is a crucial step in the development of functional and clinically relevant tissue constructs. A number of previous techniques have been proposed to spatially regulate the distribution of angiogenic biomolecules and vascular cells within biomaterial matrices to promote vascularization. Most of these approaches have been limited to two-dimensional (2D) micropatterned features or have resulted in formation of random vasculature within three-dimensional (3D) microenvironments. In this study, we investigate 3D endothelial cord formation within micropatterned gelatin methacrylate (GelMA) hydrogels with varying geometrical features (50-150 μm height). We demonstrated the significant dependence of endothelial cells proliferation, alignment and cord formation on geometrical dimensions of the patterned features. The cells were able to align and organize within the micropatterned constructs and assemble to form cord structures with organized actin fibers and circular/elliptical cross-sections. The inner layer of the cord structure was filled with gel showing that the micropatterned hydrogel constructs guided the assembly of endothelial cells into cord structures. Notably, the endothelial cords were retained within the hydrogel microconstructs for all geometries after two weeks of culture; however, only the 100 μm-high constructs provided the optimal microenvironment for the formation of circular and stable cord structures. Our findings suggest that endothelial cord formation is a preceding step to tubulogenesis and the proposed system can be used to develop organized vasculature for engineered tissue constructs.

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Sigma-Aldrich
TissueFab® Discrete GelMA, 90-110 bloom, 50% degree of substitution
Sigma-Aldrich
Low endotoxin GelMA solution, gel strength 300 (bloom), degree of substitution 80%, 0.2 μm, sterile-filtered, GelMA Type B
Sigma-Aldrich
TissueFab® Discrete GelMA, 300 bloom, 50% degree of substitution
Sigma-Aldrich
TissueFab® Discrete GelMA, 300 bloom, 80% degree of substitution
Sigma-Aldrich
Gelatin methacryloyl, gel strength 300 g Bloom, degree of substitution 40%
Sigma-Aldrich
Low endotoxin GelMA, mol wt 95 kDa, degree of substitution 60%
Sigma-Aldrich
Low endotoxin GelMA, bloom 300, Type A, degree of substitution 80%