☆ 3.8 Review

Hydrogel-Based Fiber Biofabrication Techniques for Skeletal Muscle Tissue Engineering

ACS BIOMATERIALS SCIENCE & ENGINEERING (2022)

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3D Bioprinting of Vessel-like Structures with Multilevel Fluidic Channels

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Electrospinning versus microfluidic spinning of functional fibers for biomedical applications

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Gelatin-Polyaniline Composite Nanofibers Enhanced Excitation-Contraction Coupling System Maturation in Myotubes

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Tissue-specific extracellular matrix promotes myogenic differentiation of human muscle progenitor cells on gelatin and heparin conjugated alginate hydrogels

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Manufacturing of hydrogel biomaterials with controlled mechanical properties for tissue engineering applications

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Self-Assembled Hydrogel Fiber Bundles from Oppositely Charged Polyelectrolytes Mimic Micro-/Nanoscale Hierarchy of Collagen

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Microfluidic-enhanced 3D bioprinting of aligned myoblast-laden hydrogels leads to functionally organized myofibers in vitro and in vivo

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Interwoven Aligned Conductive Nanofiber Yarn/Hydrogel Composite Scaffolds for Engineered 3D Cardiac Anisotropy

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Electrically conductive graphene/polyacrylamide hydrogels produced by mild chemical reduction for enhanced myoblast growth and differentiation

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Microfl uidic Bioprinting of Heterogeneous 3D Tissue Constructs Using Low-Viscosity Bioink

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Muscle Tissue Engineering Using Gingival Mesenchymal Stem Cells Encapsulated in Alginate Hydrogels Containing Multiple Growth Factors

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Bioprinting 3D microfibrous scaffolds for engineering endothelialized myocardium and heart-on-a-chip

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Gelatin-Methacryloyl Hydrogels: Towards Biofabrication-Based Tissue Repair

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Design and Printing Strategies in 3D Bioprinting of Cell-Hydrogels: A Review

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Defined Micropatterning of ECM Protein Adhesive Sites on Alginate Microfibers for Engineering Highly Anisotropic Muscle Cell Bundles

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Biofunctional hydrogels for skeletal muscle constructs

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Polymeric Electrospinning for Musculoskeletal Regenerative Engineering

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Combining a micro/nano-hierarchical scaffold with cell-printing of myoblasts induces cell alignment and differentiation favorable to skeletal muscle tissue regeneration

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Nanofiber Yarn/Hydrogel Core-Shell Scaffolds Mimicking Native Skeletal Muscle Tissue for Guiding 3D Myoblast Alignment, Elongation, and Differentiation

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A novel bioreactor for the generation of highly aligned 3D skeletal muscle-like constructs through orientation of fibrin via application of static strain

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Regulating myogenic differentiation of mesenchymal stem cells using thermosensitive hydrogels

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Rapid release of growth factors regenerates force output in volumetric muscle loss injuries

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Synthesis, properties, and biomedical applications of gelatin methacryloyl (GelMA) hydrogels

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Controlled delivery of SDF-1α and IGF-1: CXCR4+ cell recruitment and functional skeletal muscle recovery

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Microfluidic Strategies for Design and Assembly of Microfibers and Nanofibers with Tissue Engineering and Regenerative Medicine Applications

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Static axial stretching enhances the mechanical properties and cellular responses of fibrin microthreads

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Cell electrospinning cardiac patches for tissue engineering the heart

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Creating polymer hydrogel microfibres with internal alignment via electrical and mechanical stretching

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Sustained Delivery of VEGF Maintains Innervation and Promotes Reperfusion in Ischemic Skeletal Muscles Via NGF/GDNF Signaling

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Three-dimensionally printed biological machines powered by skeletal muscle

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Fabrication of freestanding alginate microfibers and microstructures for tissue engineering applications

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Printing three-dimensional tissue analogues with decellularized extracellular matrix bioink

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Hybrid hydrogels containing vertically aligned carbon nanotubes with anisotropic electrical conductivity for muscle myofiber fabrication

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Dielectrophoretically Aligned Carbon Nanotubes to Control Electrical and Mechanical Properties of Hydrogels to Fabricate Contractile Muscle Myofibers

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Three-dimensional neuron-muscle constructs with neuromuscular junctions

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Fiber-based tissue engineering: Progress, challenges, and opportunities

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Expression of cardiac proteins in neonatal cardiomyocytes on PGS/fibrinogen core/shell substrate for Cardiac tissue engineering

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Metre-long cell-laden microfibres exhibit tissue morphologies and functions

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Fibrin-Based Tissue Engineering: Comparison of Different Methods of Autologous Fibrinogen Isolation

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Alignment of multi-layered muscle cells within three-dimensional hydrogel macrochannels

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Cartilage-like mechanical properties of poly (ethylene glycol)-diacrylate hydrogels

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Fibroblast growth factor 2-functionalized collagen matrices for skeletal muscle tissue engineering

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Bio-electrospraying and Cell Electrospinning: Progress and Opportunities for Basic Biology and Clinical Sciences

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The role of extracellular matrix composition in structure and function of bioengineered skeletal muscle

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Sensing characteristics of a conducting polymer/hydrogel hybrid microfiber artificial muscle

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Restoration of Skeletal Muscle Defects with Adult Human Cells Delivered on Fibrin Microthreads

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Crosslinking Metal Nanoparticles into the Polymer Backbone of Hydrogels Enables Preparation of Soft, Magnetic Field-Driven Actuators with Muscle-Like Flexibility

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Microengineered hydrogels for tissue engineering

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C2C12 co-culture on a fibroblast substratum enables sustained survival of contractile, highly differentiated myotubes with peripheral nuclei and adult fast myosin expression

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Hydrogels for tissue engineering: scaffold design variables and applications

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