Tissue engineering makes use of the principles of medicine, biology and engineering and
integrates them into the design of biological substitutes to restore, maintain and improve the …

Gelatin methacryloyl (GelMA) has attracted the widespread interest of researchers because
of its excellent biocompatibility, biodegradability, and moldability. Various structures have …

Since the advent of additive manufacturing, known commonly as 3D printing, this technology
has revolutionized the biofabrication landscape and driven numerous pivotal advancements …

Muscle tissues are soft tissues that are of great importance in force generation, body
movements, postural support and internal organ function. Muscle tissue injuries would not …

Waste from non-degradable plastics is becoming an increasingly serious problem.
Therefore, more and more research focuses on the development of materials with …

Electrospinning has been widely used as a nanofiber fabrication technique. Its simple
process, cost effectiveness and versatility have appealed to materials scientists globally …

Skin wounds have significant morbidity and mortality rates associated. This is explained by
the limited effectiveness of the currently available treatments, which in some cases do not …

Tissue engineering uses a combination of cell biology, chemistry, and biomaterials to
fabricate three dimensional (3D) tissues that mimic the architecture of extracellular matrix …

Abstract Poly (glycerol sebacate)(PGS) continues to attract attention for biomedical
applications owing to its favorable combination of properties. Conventionally polymerized by …

Electrospinning is a method of preparing microfibers or nanofibers by using an electrostatic
force to stretch the electrospinning fluid. Electrospinning has gained considerable attention …