Jia Jia

TL;DR: This research lays a foundation for the development of alginate-based bioink for tissue-specific tissue engineering applications by systematically investigated the effects of two key material properties ofAlginate solutions on their printabilities to identify a suitable range of material properties to be applied to bioprinting.

TL;DR: Cardiac organoids incorporating an oxygen-diffusion gradient and stimulated with the neurotransmitter noradrenaline can model the structure and function of the human heart after myocardial infarction.

TL;DR: The methods of bioprinting vascularized constructs, bioink for vascularization, and perspectives on recent innovations in 3D printing and biomaterials for the next generation of 3D biopprinting for vascularized tissue fabrication are covered.

TL;DR: This work has developed a defined method to produce scaffold-free human cardiac organoids that structurally and functionally resembled the lumenized vascular network in the developing myocardium, supported hiPSC-CM development and possessed fundamental cardiac tissue-level functions.

TL;DR: This review will cover several approaches that have advanced the field of 3D printing through novel fabrication methods of tissue engineering constructs and discuss the applications of synthetic and natural materials for3D printing facilitated tissue fabrication.