Smart or stimuli-responsive materials are an emerging class of materials used for tissue
engineering and drug delivery. A variety of stimuli (including temperature, pH, redox-state …

The practice of combining external stimulation therapy alongside stimuli-responsive bio-
scaffolds has shown massive potential for tissue engineering applications. One promising …

Bioreactors are essential tools in tissue engineering and drug delivery research, providing
controlled environments for cell growth, tissue development, and optimization of …

Skeletal muscle regeneration is one of the major areas of interest in sport medicine as well
as trauma centers. Three‐dimensional (3D) bioprinting (BioP) is nowadays widely adopted …

In this study, chaotic flows are used to biofabricate muscle tissue-like constructs that mimics
the hierarchical architecture of native skeletal muscle. Multi-layered and multi-material …

The number of skeletal muscle injuries derived from myopathies, exercise, and trauma, is
growing due to increasing sports activities in normal life of people. Skeletal muscle has a …

Artificial skins have been used as skin substitutes for wound healing in the clinic, and as in
vitro models for safety assessment in cosmetic and pharmaceutical industries. The three …

Commonly used bioprinting technologies (eg, material extrusion, material jetting) enable the
fabrication of complex, multimaterial and multiscale scaffolds with controlled properties for …

Tissue engineering (TE) is an interdisciplinary field that aims at creating functional
substitutes able to promote tissue healing after implantation. In the scope of TE, bioprinting …

The physico-chemical properties of the scaffold materials used for tissue regeneration
strategies have a direct impact on cell shape, adhesion, proliferation, phenotypic and …