Fiber-integrated hydrogels: a versatile platform to improve structural and biological performance in 3D biofabrication
Annabelle Neuhäusler, Nils Lindner, Andreas Blaeser

TL;DR
Fiber-integrated hydrogels improve tissue engineering by enhancing stiffness, anisotropy, and nutrient diffusion, supporting better cell behavior and tissue modeling.
Contribution
This review introduces fiber-integrated hydrogels as a novel platform to enhance structural and biological performance in 3D biofabrication.
Findings
Fiber-added hydrogels show up to 10-fold increased stiffness and 4-fold improved nutrient diffusion.
Cellular behavior, including adhesion and differentiation, is significantly enhanced with fiber integration.
Applications in bone, muscle, and nerve tissue demonstrate the broad potential of these composites.
Abstract
Hydrogels emerged as versatile biomaterials for tissue engineering due to their extra cellular matrix similarity and mechanical and biochemical properties. Still, hydrogels expose limited stiffness, anisotropy and nutrient diffusion. By reinforcing hydrogels with synthetic and natural fibers, these drawbacks can be effectively addressed, thereby enabling the modeling of advanced biomimetic tissue. This review discusses recent progress in the fabrication of fiber-integrated hydrogels and brings together developments from biomaterials, biofabrication, mechanobiology, and organ-model engineering. Fiber-addition impact on viscoelastic, time-dependent und nonlinear material properties, on multiscale and hierarchical constructs and on mechanical and biological readouts are analyzed. Specifically, the integration of both synthetic and natural fibers into hydrogel matrices is highlighted which…
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Taxonomy
Topics3D Printing in Biomedical Research · Hydrogels: synthesis, properties, applications · Cellular Mechanics and Interactions
