Considering the advantages and disadvantages of biomaterials used for the production of
3D scaffolds for tissue engineering, new strategies for designing advanced functional …

Bioprinting is rapidly being adopted as a major method for fabricating tissue engineering
constructs. Through the precise deposition of cell-and bioactive molecule-laden materials …

Despite the significant technological advancement in tissue engineering, challenges still
exist towards the development of complex and fully functional tissue constructs that mimic …

Supramolecular hydrogels are used in the 3D printing of high-resolution, multi-material
structures. The non-covalent bonds allow the extrusion of the inks into support gels to …

A new bioprinting method is reported for fabricating 3D tissue constructs replete with
vasculature, multiple types of cells, and extracellular matrix. These intricate, heterogeneous …

Vascularization remains a critical challenge in tissue engineering. The development of
vascular networks within densely populated and metabolically functional tissues facilitate …

Engineered adipose tissue constructs that are capable of reconstructing soft tissue with
adequate volume would be worthwhile in plastic and reconstructive surgery. Tissue printing …

Engineered cardiac patches for treating damaged heart tissues after a heart attack are
normally produced by seeding heart cells within three-dimensional porous biomaterial …

Building human tissues via 3D cell printing technology has received particular attention due
to its process flexibility and versatility. This technology enables the recapitulation of unique …

In the absence of perfusable vascular networks, three-dimensional (3D) engineered tissues
densely populated with cells quickly develop a necrotic core. Yet the lack of a general …