Sodium alginate (SA) is an inexpensive and biocompatible biomaterial with fast and gentle
crosslinking that has been widely used in biological soft tissue repair/regeneration …

Tissue/organ shortage is a major medical challenge due to donor scarcity and patient
immune rejections. Furthermore, it is difficult to predict or mimic the human disease condition …

Conductive hydrogels (CHs) with high sensitivity and multifunctional property are
considered as excellent materials for wearable devices and flexible electronics. Surface …

The construction of biomimetic vasculatures within the artificial tissue models or organs is
highly required for conveying nutrients, oxygen, and waste products, for improving the …

Engineered skin substitutes derived from human skin significantly reduce inflammatory
reactions mediated by foreign/artificial materials and are consequently easier to use for …

The use of human cells for the construction of 3D organ models in vitro based on cell self-
assembly and engineering design has recently increased in popularity in the field of …

Skin tissue engineering and regeneration aim at repairing defective skin injuries and
progress in wound healing. Until now, even though several developments are made in this …

The field of tissue engineering continues to advance, sometimes in exponential leaps
forward, but also sometimes at a rate that does not fulfill the promise that the field imagined a …

Gelatin methacrylate (GelMA) hydrogels have gained significant traction in diverse tissue
engineering applications through the utilization of 3D printing technology. As an artificial …

Three-dimensional (3D) bioprinting has advantages for constructing artificial skin tissues in
replicating the structures and functions of native skin. Although many studies have …