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Tailored Hydrogels for 3D Bioprinting: Matching Tissue Viscoelasticity to Enhance Resident Cell Functionality

Yudong Duan, Xiuwei Mi, Qifan Yu, Zhuang Zhu, Cheng Gong, Youzhi Hong, Haitong Huang, Songbing He, Lijie Wang, Qianping Guo, Caihong Zhu, Bin Li

2025Advanced Functional Materials10 citationsDOI

Abstract

Abstract The development of biomaterials that reconcile print fidelity with cellular functionality remains a major challenge in extrusion‐based 3D bioprinting. Here, a viscoelastic hydrogel featuring a small‐molecule‐mediated crosslinking dynamic network, enabling precise tuning of viscoelastic properties to mimic the mechanical properties of diverse tissues is introduced. The hydrogel's unique combination of high viscosity and rapid shear‐thinning characteristics reduced extrusion‐induced cell damage while maintaining structural integrity. Meanwhile, the hydrogel mimicking the viscoelasticity of bone marrow significantly promotes the proliferation, spreading, migration and stemness maintenance of bone marrow‐derived mesenchymal stem cell (BMSC) in 3D culture via an integrin/p‐FAK/Lamin/YAP signaling pathway, with an enhanced bone regeneration efficacy both in vitro and in vivo. The molecular mechanisms underlying viscoelastic hydrogel‐mediated osteogenic differentiation are also uncovered, revealing a novel phenomenon of nuclear co‐localization and interaction between Wnt1 and YAP. Moreover, designed viscoelastic hydrogels enable the establishment of disease models by replicating the mechanical parameters of pathological matrices relevant to colon cancer, pulmonary fibrosis, and liver cancer. Overall, this work establishes a unique strategy for bioink design, merging regenerative medicine and disease modeling by integrating tunable viscoelasticity with biological functions, offering broad translational potential for future 3D bioprinting.

Topics & Concepts

Self-healing hydrogelsMaterials scienceViscoelasticity3D bioprintingTissue engineeringBiomedical engineeringNanotechnologyComposite materialPolymer chemistryMedicine3D Printing in Biomedical ResearchCellular Mechanics and InteractionsAdditive Manufacturing and 3D Printing Technologies