Mechano-bioactive hydrogel bioelectronics for mechanical-electrical-bioenergetic conversion and glia-modulating neural regeneration. [PDF]
Nat CommunShen J +6 more
europepmc +1 more source
Editorial: Spinal cord development and neural regeneration. [PDF]
Front Mol Neurosci, 2023 Xing L, Han Q, Lai B, Rao F.
europepmc +1 more source
Advanced Materials Technologies, EarlyView.This review outlines how understanding bone's biology, hierarchical architecture, and mechanical anisotropy informs the design of lattice structures that replicate bone morphology and mechanical behavior. Additive manufacturing enables the fabrication of orthopedic implants that incorporate such structures using a range of engineering materials ...
Stylianos Kechagias +4 more
wiley +1 more source
Efficacy of Forward and Reverse Suturing Techniques in Enhancing Neural Regeneration and Motor Function Recovery Following Facial Nerve Axotomy. [PDF]
J Clin MedLee JM, Oh YJ, Kim SS, Kim YJ, Yeo SG.
europepmc +1 more source
Microglia dynamic response and phenotype heterogeneity in neural regeneration following hypoxic-ischemic brain injury. [PDF]
Front Immunol, 2023 Quan H, Zhang R.
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Hydrogel Confinement Strategies for 3D Cell Culture in Microfluidic Systems
Advanced Materials Technologies, EarlyView.Hydrogel confinement structures are key to organizing 3D cell cultures in microfluidic devices. This review classifies five structural strategies (micropillar, phaseguide, porous membrane, stepped‐height, and support‐free) and examines their trade‐offs alongside fabrication methods.
Soohyun Kim, Min Seok Lee, Sung Kyun Lee
wiley +1 more source
Development and Characterization of Hyaluronic Acid Microgels for Neural Regeneration Applications. [PDF]
J Biomed Mater Res AHickey KN +8 more
europepmc +1 more source
The Promising Role of a Zebrafish Model Employed in Neural Regeneration Following a Spinal Cord Injury. [PDF]
Int J Mol Sci, 2023 Zeng CW, Tsai HJ.
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