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Anisotropic Rod-Shaped Particles Influence Injectable Granular Hydrogel Properties and Cell Invasion

Adv Mater. 2021-12; 
Taimoor H Qazi, Jingyu Wu, Victoria G Muir, Shoshana Weintraub, Sarah E Gullbrand, Daeyeon Lee, David Issadore, Jason A Burdick
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Peptide Synthesis … An interstitial matrix precursor solution was produced by combining 1.8% w/v Nor- HA, 0.5 mM thiolated RGD (GCGYGRGDSPG, Genscript), 3.5 mM thiolated MMP-degradable peptide crosslinker (GCNSVPMSMRGGSNCG, Genscript), and 0.05% w/v LAP photoinitiator) in PBS … Get A Quote

摘要

Granular hydrogels have emerged as a new class of injectable and porous biomaterials that improve integration with host tissue when compared to solid hydrogels. Granular hydrogels are typically prepared using spherical particles and this study considers whether particle shape (i.e., isotropic spheres versus anisotropic rods) influences granular hydrogel properties and cellular invasion. Simulations predict that anisotropic rods influence pore shape and interconnectivity, as well as bead transport through granular assemblies. Photocrosslinkable norbornene-modified hyaluronic acid is used to produce spherical and rod-shaped particles using microfluidic droplet generators and formed into shear-thinning and self-he... More

关键词

Angiogenesis, Biomaterials, Elongated Particles, Endogenous Repair, Jamming, Microgels
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