Carbon nanotube (CNT) monolayer patterns are utilized to control the growth of mesenchymal stem cells (MSCs) (see figure). MSCs exhibit preferential growth on CNT patterns, suggesting that the CNT monolayer does not have a harmful effect on the MSCs. Furthermore, the growth of MSCs on swCNT patterns between electrodes is demonstrated. These results show that CNT patterns have enormous potential as a new platform for basic research and applications using stem cells
The functionality of stem cells is tightly regulated by cues from the niche, comprising both intrins...
Researchers have made extensive efforts to mimic or reverse-engineer in vivo neural circuits using m...
Fibronectin-carbon-nanotube (CNT) hybrid nanostructures are proposed as a platform to control the ad...
Carbon nanotube (CNT) networks on solid substrates have recently drawn attention as a means to direc...
In order to successfully utilize stem cells for therapeutic applications in regenerative medicine, e...
International audienceCarbon nanotubes (CNTs) promise various novel neural biomedical applications f...
We investigated the cellular adhesive features of mesenchymal stem cells (MSC) on non-coated and col...
Carbon nanotubes (CNTs) promise various novel neural biomedical applications for interfacing neurons...
We investigated the biological response of human pluripotent stem cells (hPSCs) cultured on a carbon...
Here we show an industrially scalable and inexpensive method of fabricating entirely synthetic, non-...
Here we show an industrially scalable and inexpensive method of fabricating entirely synthetic, non-...
New strategies for spatially controlled growth of human neurons may provide viable solutions to trea...
BACKGROUND & AIM: Carbon nanotubes (CNTs) are a promising material for implantation due to the fact ...
Studies on the interaction of cells with single-walled carbon nanotubes (SWCNTs) have been receiving...
A central effort in biomedical research concerns the development of materials for sustaining and con...
The functionality of stem cells is tightly regulated by cues from the niche, comprising both intrins...
Researchers have made extensive efforts to mimic or reverse-engineer in vivo neural circuits using m...
Fibronectin-carbon-nanotube (CNT) hybrid nanostructures are proposed as a platform to control the ad...
Carbon nanotube (CNT) networks on solid substrates have recently drawn attention as a means to direc...
In order to successfully utilize stem cells for therapeutic applications in regenerative medicine, e...
International audienceCarbon nanotubes (CNTs) promise various novel neural biomedical applications f...
We investigated the cellular adhesive features of mesenchymal stem cells (MSC) on non-coated and col...
Carbon nanotubes (CNTs) promise various novel neural biomedical applications for interfacing neurons...
We investigated the biological response of human pluripotent stem cells (hPSCs) cultured on a carbon...
Here we show an industrially scalable and inexpensive method of fabricating entirely synthetic, non-...
Here we show an industrially scalable and inexpensive method of fabricating entirely synthetic, non-...
New strategies for spatially controlled growth of human neurons may provide viable solutions to trea...
BACKGROUND & AIM: Carbon nanotubes (CNTs) are a promising material for implantation due to the fact ...
Studies on the interaction of cells with single-walled carbon nanotubes (SWCNTs) have been receiving...
A central effort in biomedical research concerns the development of materials for sustaining and con...
The functionality of stem cells is tightly regulated by cues from the niche, comprising both intrins...
Researchers have made extensive efforts to mimic or reverse-engineer in vivo neural circuits using m...
Fibronectin-carbon-nanotube (CNT) hybrid nanostructures are proposed as a platform to control the ad...