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Biomaterials to Spatially Regulate Cell Fate
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2002
Year
Tissue EngineeringMuscle TissueEngineeringMultifunctional BiomaterialsCell AdhesionBiomaterials DesignBiofabricationCytoskeletonBiomedical EngineeringCell DifferentiationCellular PhysiologyCell InteractionMatrix BiologyMechanobiologyCalcium GradientAdhesive LigandsCell BiomechanicsCell BiologyDevelopmental BiologyCell MigrationCell MotilityMedicineBiomaterialsBiocompatible MaterialExtracellular Matrix
Cell fate can be directed by material-derived signals and an appropriate combination of signals can direct distinct cell fates. Adhesive ligands promote the multiplication of cells in direct contact with the signal, while the calcium gradient resulting from its release spatially regulates the ability of cells to differentiate (see Figure for an example of myoblasts that have formed muscle tissue).