Three–dimensional bioprinting is an advanced tissue fabrication technique that allows
printing complex structures with precise positioning of multiple cell types layer–by–layer …

3D printed/bioprinted tissue constructs are being used in vitro models and for the
regeneration of damaged tissues. Most of the fabricated 3D constructs fail to undergo …

Abstract 3D bioprinting has emerged as a viable tool to fabricate 3D tissue constructs with
high precision using various bioinks which offer instantaneous gelation, shape fidelity, and …

Healing chronic and critical-sized full-thickness wounds is a major challenge in the
healthcare sector. Scaffolds prepared using electrospinning and hydrogels serve as …

Bioprinting describes the printing of biomaterials and cell-laden or cell-free hydrogels with
various combinations of embedded bioactive molecules. It encompasses the precise …

Nasal cartilage diseases and injuries are known as significant challenges in reconstructive
medicine, affecting a substantial number of individuals worldwide. In recent years, the …

3D bioprinting is recognized as the ultimate additive biomanufacturing technology in tissue
engineering and regeneration, augmented with intelligent bioinks and bioprinters to …

Tissue engineering has emerged as a remarkable field aiming to restore or replace
damaged tissues through the use of biomimetic constructs. Among the diverse materials …

Abstract Three-dimensional (3D) printing is an emerging tool for creating patient-specific
tissue constructs analogous to the native tissue microarchitecture. In this study, anatomically …

In tissue engineering, 3D printing represents a versatile technology employing inks to
construct three-dimensional living structures, mimicking natural biological systems. This …