The degradation of joint cartilage commonly characterizes osteoarthritis. Among the various
therapeutic strategies, three-dimensional (3D) bioprinting has surfaced as an efficacious …

Severe bleeding has caused significant financial losses as well as a major risk to the lives
and health of military and civilian populations. Under some situations, the natural …

Additive manufacturing, often called 3D printing, is widely employed in all engineering
sectors. Many researchers also refer to 3D printing in the biomedical field as bioprinting …

Alginate-based inks are widely used in 3D bioprinting. Its crosslinking by Ca 2+ ions is
extremely important to achieve scaffolds with optimal mechanical properties. Notably …

Three-dimensional (3D) models with improved biomimicry are essential to reduce animal
experimentation and drive innovation in tissue engineering. In this study, we investigate the …

Three-dimensional (3D) bioprinting opens up many possibilities for tissue engineering,
thanks to its ability to create a three-dimensional environment for cells like an extracellular …

The cartilage possesses limited regenerative capacity, necessitating advanced approaches
for its repair. This study introduces a bioink designed for cartilage tissue engineering (TE) by …

Hydrogels are the most common type of bioinks, yet, finding adequate biomaterials to
develop suitable bioinks for 3D bioprinting remains challenging. Herein, innovative hydrogel …

The use of 3D bioprinting to construct in vitro skeletal muscle models presents a promising
approach; however, selecting an optimal bioink remains a common challenge. This study …

Background Gamma irradiation alters the structural, morphological, and magnetic properties
of Chitosan-coated Ytterbium-doped MnCo spinel ferrites. These findings hold significant …