Objective: To explore the effects of tensile force on vascular lumen formation in three-
dimensional printed tissue. Methods: The experimental research method was used. Human …

Vascular structures are essential for the survival of thick artificial three-dimensional (3D)
tissues. However, it is difficult to create high-cell-density artificial tissue with vascular …

BACKGROUND: Construction of tissue engineering vascular structures is a key to the
regeneration of complex tissues and organs. The use of three-dimensional printing …

Cardiovascular disease is the leading cause of death worldwide. Traditional autologous
transplantation has become a severe issue due to insufficient donors. Artificial blood vessel …

In article number 2101405 by Shu Wang, Xiongfei Zheng, Qi Gu, and co-workers, a
bioprinting methodology with multistage-temperature-control is developed, producing …

BACKGROUND: Combining seed cells with 3D bioprinting technology enables the specific
construction of various tissues and organs to meet the demands of tissue repair. However …

BACKGROUND: Cells cannot survive in the area 200 μm away from nutrients in vitro.
Vascular network construction is crucial for thick tissue and organ regeneration in tissue …

Significance Tissue engineering is a new interdisciplinary field with great potential. It aims to
solve the problems of repair, maintenance, improvement and replacement of tissue functions …

Tissue vascularization is critical to enable oxygen and nutrient supply. Therefore,
establishing expedient vasculature is necessary for the survival of tissue after …

Using a microfluidic-based core-shell nozzle, human umbilical vein endothelial cells
(HUVECs) and human aortic smooth muscle cells (HASMCs) were coaxially and …