Collagen type I (Col-I) is unique due to its high biocompatibility in human tissue. Despite its
availability from various sources, Col-I naturally mimics the extracellular matrix (ECM) and …

Three-dimensional (3D) bioprinting has become mainstream for precise and repeatable
high-throughput fabrication of complex cell cultures and tissue constructs in drug testing and …

The major challenges of hyaluronic acid-based bioinks in extrusion-based three-
dimensional bioprinting are poor printability and low printing accuracy. To tackle the …

Photocrosslinkable bioinks have gained interest in 3D bioprinting due to their versatility and
ease of use. However, a specific functional group, such as methacrylate or photo-click …

The printability of a photocross-linkable methacrylated gelatin (GelMA) bioink with an
extrusion-based 3D bioprinter is highly affected by the polymer concentration and printing …

Bioprinting is fast emerging as a viable technique for organ fabrication. Though various
types of bioprinting methods have been developed, the most commonly used bioprinting is …

3D bioprinting integrating multidisciplinary advances in engineering, cell biology, and
material science is able to fabricate artificial tissues and organ‐like structures with biology or …

Collagen methacrylation is a promising approach to generate photo-cross-linkable cell-
laden hydrogels with improved mechanical properties. However, the impact of species …

Smart hydrogels based on natural polymers present an opportunity to fabricate responsive
scaffolds that provide an immediate and reversible reaction to a given stimulus. Modulation …

Due to the limited self-repair capacity of the hyaline cartilage, the repair of cartilage remains
an unsolved clinical problem. Tissue engineering strategy with 3D bioprinting technique has …