Stem-cell-derived epithelial organoids are routinely used for the biological and biomedical modelling of tissues. However, the complexity, lack of standardization and quality control of stem cell culture in solid extracellular matrices hampers the routine use of the organoids at the industrial scale. Here, we report the fabrication of microengineered cell culture devices and scalable and automated methods for suspension culture and real-time analysis of thousands of individual gastrointestinal organoids trapped in microcavity arrays within a polymer-hydrogel substrate. The absence of a solid matrix substantially reduces organoid heterogeneity, which we show for mouse and human gastrointestinal organoids. We use the devices to screen for ant...
The use of organoids in personalized medicine is promising but high throughput platforms are needed....
Organoids are three-dimensional (3D) structures that can be derived from stem cells or adult tissue ...
Organ‐like cell clusters, so‐called organoids, which exhibit self‐organized and similar organ functi...
Stem-cell-derived epithelial organoids are routinely used for the biological and biomedical modellin...
International audienceTo analyze the phenotypic consequences of genetic perturbation in mammalian ce...
As organoids offer a promising tool to study cell biology and model diseases, organoid technology ha...
Organoids are three-dimensional, functional structures that mimic in vivo organs. They offer new opp...
In vitro cell culture models are emerging as promising tools to understand human development, diseas...
As the importance of organoids increases, the need to develop organoid culture systems suitable for ...
Conventional 2-dimensional cell culture poorly mimics human-relevant models, which is considered a m...
Organoids are 3D in vitro culture systems derived from self-organizing stem cells. They can recapitu...
Organoid cultures have emerged as powerful model systems accelerating discoveries in cellular and ca...
Drug attrition rates for cancer are much higher than in other therapeutic areas. There is an urgent ...
Over the previous decade, one of the most exciting advancements in stem cell technology has been the...
Organoids are self-organising stem cell-derived ex vivo cultures widely adopted as biomimetic models...
The use of organoids in personalized medicine is promising but high throughput platforms are needed....
Organoids are three-dimensional (3D) structures that can be derived from stem cells or adult tissue ...
Organ‐like cell clusters, so‐called organoids, which exhibit self‐organized and similar organ functi...
Stem-cell-derived epithelial organoids are routinely used for the biological and biomedical modellin...
International audienceTo analyze the phenotypic consequences of genetic perturbation in mammalian ce...
As organoids offer a promising tool to study cell biology and model diseases, organoid technology ha...
Organoids are three-dimensional, functional structures that mimic in vivo organs. They offer new opp...
In vitro cell culture models are emerging as promising tools to understand human development, diseas...
As the importance of organoids increases, the need to develop organoid culture systems suitable for ...
Conventional 2-dimensional cell culture poorly mimics human-relevant models, which is considered a m...
Organoids are 3D in vitro culture systems derived from self-organizing stem cells. They can recapitu...
Organoid cultures have emerged as powerful model systems accelerating discoveries in cellular and ca...
Drug attrition rates for cancer are much higher than in other therapeutic areas. There is an urgent ...
Over the previous decade, one of the most exciting advancements in stem cell technology has been the...
Organoids are self-organising stem cell-derived ex vivo cultures widely adopted as biomimetic models...
The use of organoids in personalized medicine is promising but high throughput platforms are needed....
Organoids are three-dimensional (3D) structures that can be derived from stem cells or adult tissue ...
Organ‐like cell clusters, so‐called organoids, which exhibit self‐organized and similar organ functi...