It is of great value to develop reliable in vitro models for cell biology and toxicology. However, ethical issues and the decreasing number of donors restrict the further use of traditional animal models in various fields, including the emerging fields of tissue engineering and regenerative medicine. The huge gap created by the restrictions in animal models has pushed the development of the increasingly recognized three-dimensional (3D) cell culture, which enables cells to closely simulate authentic cellular behaviour such as close cell-to-cell interactions and can achieve higher functionality. Furthermore, 3D cell culturing is superior to the traditional 2D cell culture, which has obvious limitations and cannot closely mimic the structure ...
This research received support from the QNano Project http://www.qnano-ri.eu which is financed by th...
Three-dimensional multicellular spheroids (MCSs) have received extensive attention in the field of b...
International audienceThree-dimensional cell culture has revolutionized cellular biology research an...
It is of great value to develop reliable in vitro models for cell biology and toxicology. However, e...
Traditional two dimensional cell culture has enabled great strides in biomedicine but needs to be im...
Three-dimensional (3D) cell culture has tremendous advantages to closely mimic the in vivo architect...
Three-dimensional (3D) cell culture systems can be regarded as suitable platforms to bridge the huge...
The development of in vitro models for advancing the research of cell biology and cell physiology is...
3D cell culture is a technique that is used to grow cells in vitro that will mimic an in vivo enviro...
3D cell culture technologies have recently shown very valuable promise for applications in regenerat...
The representativeness of a cellular model is fundamental in pre-clinical cancer studies. Size, hete...
3D cell culture is a process used to grow cells in vitro to mimic an in vivo environment. 3D cell mo...
Three-dimensional (3D) cell culture models can help bridge the gap between in vitro cell cultures an...
In cancer drug discovery, 3D cell culture is a segue between monolayer cell culture and animal testi...
This research received support from the QNano Project http://www.qnano-ri.eu which is financed by th...
Three-dimensional multicellular spheroids (MCSs) have received extensive attention in the field of b...
International audienceThree-dimensional cell culture has revolutionized cellular biology research an...
It is of great value to develop reliable in vitro models for cell biology and toxicology. However, e...
Traditional two dimensional cell culture has enabled great strides in biomedicine but needs to be im...
Three-dimensional (3D) cell culture has tremendous advantages to closely mimic the in vivo architect...
Three-dimensional (3D) cell culture systems can be regarded as suitable platforms to bridge the huge...
The development of in vitro models for advancing the research of cell biology and cell physiology is...
3D cell culture is a technique that is used to grow cells in vitro that will mimic an in vivo enviro...
3D cell culture technologies have recently shown very valuable promise for applications in regenerat...
The representativeness of a cellular model is fundamental in pre-clinical cancer studies. Size, hete...
3D cell culture is a process used to grow cells in vitro to mimic an in vivo environment. 3D cell mo...
Three-dimensional (3D) cell culture models can help bridge the gap between in vitro cell cultures an...
In cancer drug discovery, 3D cell culture is a segue between monolayer cell culture and animal testi...
This research received support from the QNano Project http://www.qnano-ri.eu which is financed by th...
Three-dimensional multicellular spheroids (MCSs) have received extensive attention in the field of b...
International audienceThree-dimensional cell culture has revolutionized cellular biology research an...