Three-dimensional (3D) cell culture has tremendous advantages to closely mimic the in vivo architecture and microenvironment of healthy tissue and organs, as well as of solid tumors. Spheroids are currently the most attractive 3D model to produce uniform reproducible cell structures as well as a potential basis for engineering large tissues and complex organs. In this review we discuss, from an engineering perspective, processes to obtain uniform 3D cell spheroids, comparing dynamic and static cultures and considering aspects such as mass transfer and shear stress. In addition, computational and mathematical modeling of complex cell spheroid systems are discussed. The non-cell-adhesive hydrogel-based method and dynamic cell culture in biore...
A three-dimensional (3D) tissue model has significant advantages over the conventional two-dimension...
Long-term culture and monitoring of individual multicellular spheroids and embryoid bodies (EBs) rem...
The representativeness of a cellular model is fundamental in pre-clinical cancer studies. Size, hete...
Three-dimensional (3D) cell culture has tremendous advantages to closely mimic the in vivo architect...
It is of great value to develop reliable in vitro models for cell biology and toxicology. However, e...
Three-dimensional (3D) cell culture systems can be regarded as suitable platforms to bridge the huge...
© 2018 Elsevier B.V. A cell spheroid is a three-dimensional (3D) aggregation of cells. Synthetic, in...
Cell culture is an important life science technology. Compared with the traditional two-dimensional ...
Cell spheroids have recently emerged as an effective tool to recapitulate native microenvironments o...
Introduction: Three-dimensional (3D) cell cultures are identified as more accurate and representativ...
Three-dimensional multicellular spheroids (MCSs) have received extensive attention in the field of b...
© The Royal Society of Chemistry 2017. We report a simple technique for the high throughput generati...
The generation of human stem cell-derived spheroids and organoids represents a major step in solving...
3D cell culture is a technique that is used to grow cells in vitro that will mimic an in vivo enviro...
Engineering of in vitro three-dimensional cultures of stem cells and their progenies has offered pro...
A three-dimensional (3D) tissue model has significant advantages over the conventional two-dimension...
Long-term culture and monitoring of individual multicellular spheroids and embryoid bodies (EBs) rem...
The representativeness of a cellular model is fundamental in pre-clinical cancer studies. Size, hete...
Three-dimensional (3D) cell culture has tremendous advantages to closely mimic the in vivo architect...
It is of great value to develop reliable in vitro models for cell biology and toxicology. However, e...
Three-dimensional (3D) cell culture systems can be regarded as suitable platforms to bridge the huge...
© 2018 Elsevier B.V. A cell spheroid is a three-dimensional (3D) aggregation of cells. Synthetic, in...
Cell culture is an important life science technology. Compared with the traditional two-dimensional ...
Cell spheroids have recently emerged as an effective tool to recapitulate native microenvironments o...
Introduction: Three-dimensional (3D) cell cultures are identified as more accurate and representativ...
Three-dimensional multicellular spheroids (MCSs) have received extensive attention in the field of b...
© The Royal Society of Chemistry 2017. We report a simple technique for the high throughput generati...
The generation of human stem cell-derived spheroids and organoids represents a major step in solving...
3D cell culture is a technique that is used to grow cells in vitro that will mimic an in vivo enviro...
Engineering of in vitro three-dimensional cultures of stem cells and their progenies has offered pro...
A three-dimensional (3D) tissue model has significant advantages over the conventional two-dimension...
Long-term culture and monitoring of individual multicellular spheroids and embryoid bodies (EBs) rem...
The representativeness of a cellular model is fundamental in pre-clinical cancer studies. Size, hete...