A bio-inspired neural environment to control neurons comprising radial glia, substrate chemistry and topography
P Roach, T Parker, N Gadegaard… - Biomaterials science, 2013 - pubs.rsc.org
Achieving alignment of cells is key to the success of regenerative strategies of neural tissue.
We report a high-throughput method to investigate neural cell response to surface chemistry …
We report a high-throughput method to investigate neural cell response to surface chemistry …
A bio-inspired neural environment to control neurons comprising radial glia, substrate chemistry and topography.
P Roach, T Parker, N Gadegaard… - Biomaterials …, 2012 - europepmc.org
Achieving alignment of cells is key to the success of regenerative strategies of neural tissue.
We report a high-throughput method to investigate neural cell response to surface chemistry …
We report a high-throughput method to investigate neural cell response to surface chemistry …
A bio-inspired neural environment to control neurons comprising radial glia, substrate chemistry and topography
P Roach, T Parker, N Gadegaard… - Biomaterials …, 2013 - pubmed.ncbi.nlm.nih.gov
Achieving alignment of cells is key to the success of regenerative strategies of neural tissue.
We report a high-throughput method to investigate neural cell response to surface chemistry …
We report a high-throughput method to investigate neural cell response to surface chemistry …
A bio-inspired neural environment to control neurons comprising radial glia, substrate chemistry and topography
P Roach, T Parker, N Gadegaard… - Biomaterials …, 2013 - eprints.gla.ac.uk
Achieving alignment of cells is key to the success of regenerative strategies of neural tissue.
We report a high-throughput method to investigate neural cell response to surface chemistry …
We report a high-throughput method to investigate neural cell response to surface chemistry …