Effect of chemically induced osteogenesis supplements on multicellular behavior of osteocytic spheroids

“…These modules are then further assembled into 3D structures according to a specific spatial arrangement. The MoA platform is versatile, flexible, and scalable, bridging the gaps between techniques currently employed for building vascularized organotypic tissues to be used for tissue engineering and regenerative medicine [40][41][42][43][44][45][46]. Nowadays, tissue modules of different profiles with regard to type, size, cell composition, and morphology can be prepared (figure 1).…”

“…multi-organ systems, organ-scale tissues, and advanced tissues. Compared to conventional cell-assembly methods for vascularized organotypic tissue construction, this approach has the following advantages [40][41][42][43][44][45][46]. First, the cell density is close to that in vivo; second, this approach accelerates the formation of a vascular network and markedly improves vascular maturation; third, the vascular network interacts with other components within the microenvironment and fosters adaptive remodeling; fourth, it significantly improves tissue survival and development.…”

Engineering vascularized organotypic tissues via module assembly

“…These modules are then further assembled into 3D structures according to a specific spatial arrangement. The MoA platform is versatile, flexible, and scalable, bridging the gaps between techniques currently employed for building vascularized organotypic tissues to be used for tissue engineering and regenerative medicine [40][41][42][43][44][45][46]. Nowadays, tissue modules of different profiles with regard to type, size, cell composition, and morphology can be prepared (figure 1).…”

“…multi-organ systems, organ-scale tissues, and advanced tissues. Compared to conventional cell-assembly methods for vascularized organotypic tissue construction, this approach has the following advantages [40][41][42][43][44][45][46]. First, the cell density is close to that in vivo; second, this approach accelerates the formation of a vascular network and markedly improves vascular maturation; third, the vascular network interacts with other components within the microenvironment and fosters adaptive remodeling; fourth, it significantly improves tissue survival and development.…”

Engineering vascularized organotypic tissues via module assembly