Extracellular matrix is rich in biomolecules including structural proteins,
glycosaminoglycans, and small molecules that are important for the maintenance and repair …

Extracellular matrix (ECM) derived components are emerging sources for the engineering of
biomaterials that are capable of inducing desirable cell-specific responses. This review …

The multidisciplinary fields of tissue engineering and regenerative medicine have the
potential to revolutionize the practise of medicine through the abilities to repair, regenerate …

Cardiovascular disease is still one of the leading causes of death in the world, and heart
transplantation is the current major treatment for end-stage cardiovascular diseases …

As future foods, cultured meat is produced by culturing animal cells ex vivo rather than
raising and slaughtering animals. It is a promising way to address concerns about resource …

Tissue engineering and regenerative medicine have shown potential in the repair and
regeneration of tissues and organs via the use of engineered biomaterials and scaffolds …

Skeletal muscle regeneration is highly dependent on the inflammatory response. A wide
variety of innate and adaptive immune cells orchestrate the complex process of muscle …

Advanced biomaterial-based strategies for treatment of peripheral nerve injury require
precise control over both topological and biological cues for facilitating rapid and directed …

Electrospinning has emerged as a versatile and accessible technology for fabricating
polymer fibers, particularly for biological applications. Natural polymers or biopolymers …

A wide range of synthetic and natural biomaterials is available for skeletal muscle tissue
engineering. One class of natural biomaterials consists of the extracellular matrix (ECM) …