Three-dimensional (3D) bioprinting is an innovative technology in the biomedical field,
allowing the fabrication of living constructs through an approach of layer-by-layer deposition …

Gellan Gum (GG) is a large, naturally occurring, linear polysaccharide with a similar
structure and biological properties to the extracellular matrix. It's appropriate as a matrix …

Human-induced pluripotent stem cells (hiPSCs) have emerged as a promising in vitro model
system for studying neurodevelopment. However, current models remain limited in their …

Abstract 3D bioprinting holds great promise toward fabricating biomimetic living constructs in
a bottom-up assembly manner. To date, various emergences of living constructs have been …

Abstract Three-dimensional (3D) printing technology has opened a new paradigm to
controllably and reproducibly fabricate bioengineered neural constructs for potential …

At present, the clinical reconstruction of the auricle usually adopts the strategy of taking
autologous costal cartilage. This method has great trauma to patients, poor plasticity and …

Creating functioning tissue constructions via bioprinting holds great promise for replacing
diseased or damaged tissues, which employs precise control over the geometry and …

Composite hydrogels incorporating natural polymers and bioactive glass (BG) are promising
materials for bone regeneration. However, their applications are compromised by the poor …

Currently, tissue engineering has been dedicated to the development of 3D structures
through bioprinting techniques that aim to obtain personalized, dynamic, and complex …

The new‐generation coronary stents are expected to be biodegradable, and then the
biocompatibility along with biodegradation becomes more challenging. It is a critical issue to …