Engineering enriched microenvironments with gradients of platelet lysate in hydrogel fibers
Gradients of physical and chemical cues are characteristic of specific tissue
microenvironments and contribute toward morphogenesis and tissue regeneration upon
injury. Recent advances on microfluidics and hydrogel manipulation raised the possibility of
generating biomimetic biomaterials enriched with bioactive factors and encapsulating cells
following designs specifically tailored for a target application. The novelty of this work relies
on the combination of methacrylated gellan gum (MeGG) with platelet lysate (PL), aiming to …
microenvironments and contribute toward morphogenesis and tissue regeneration upon
injury. Recent advances on microfluidics and hydrogel manipulation raised the possibility of
generating biomimetic biomaterials enriched with bioactive factors and encapsulating cells
following designs specifically tailored for a target application. The novelty of this work relies
on the combination of methacrylated gellan gum (MeGG) with platelet lysate (PL), aiming to …
[引用][C] Engineering Enriched Microenvironments with Gradients of Platelet Lysate in Hydrogel Fibers
E Santo Vítor, B Pedro, A Miguel, C Cláudia, C Bárbara - 2016
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