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

The most prevalent form of bioprinting—extrusion bioprinting—can generate structures from
a diverse range of materials and viscosities. It can create personalized tissues that aid in …

There is a growing demand for customised, biocompatible, and sterilisable components in
the medical business. 3D Printing is a disruptive technology for healthcare and provides …

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

We review the emergence of the new field of organ-on-a-chip (OOAC) engineering, from the
parent fields of tissue engineering and microfluidics. We place into perspective the tools and …

Decellularized extracellular matrix (dECM) is widely used in regenerative medicine as a
scaffold material due to its unique biological activity and good biocompatibility. Hydrogel is a …

Spinal cord injury (SCI) is a serious clinical disease. Due to the deformability and fragility of
the spinal cord, overly rigid hydrogels cannot be used to treat SCI. Hence, we used TPA and …

Self-healing hydrogels attract broad attention as cell/drug carriers for direct injection into
damaged tissues or as bioinks for three-dimensional (3D) printing of tissue-like constructs …

Annulus fibrosus (AF) repair remains a challenge because of its limited self-healing ability.
Endogenous repair strategies combining scaffolds and growth factors show great promise in …

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