Title : Growing neuronal islands on multi-electrode arrays using an accurate positioning-muCP device - Samhaber_2016_J.Neurosci.Methods_257_194 |
Author(s) : Samhaber R , Schottdorf M , El Hady A , Broking K , Daus A , Thielemann C , Stuhmer W , Wolf F |
Ref : Journal of Neuroscience Methods , 257 :194 , 2016 |
Abstract :
BACKGROUND: Multi-electrode arrays (MEAs) allow non-invasive multi-unit recording in-vitro from cultured neuronal networks. For sufficient neuronal growth and adhesion on such MEAs, substrate preparation is required. Plating of dissociated neurons on a uniformly prepared MEA's surface results in the formation of spatially extended random networks with substantial inter-sample variability. Such cultures are not optimally suited to study the relationship between defined structure and dynamics in neuronal networks. To overcome these shortcomings, neurons can be cultured with pre-defined topology by spatially structured surface modification. Spatially structuring a MEA surface accurately and reproducibly with the equipment of a typical cell-culture laboratory is challenging. NEW METHOD: In this paper, we present a novel approach utilizing micro-contact printing (muCP) combined with a custom-made device to accurately position patterns on MEAs with high precision. We call this technique AP-muCP (accurate positioning micro-contact printing). COMPARISON WITH EXISTING METHODS: Other approaches presented in the literature using muCP for patterning either relied on facilities or techniques not readily available in a standard cell culture laboratory, or they did not specify means of precise pattern positioning. CONCLUSION: Here we present a relatively simple device for reproducible and precise patterning in a standard cell-culture laboratory setting. The patterned neuronal islands on MEAs provide a basis for high throughput electrophysiology to study the dynamics of single neurons and neuronal networks. |
PubMedSearch : Samhaber_2016_J.Neurosci.Methods_257_194 |
PubMedID: 26432934 |
Samhaber R, Schottdorf M, El Hady A, Broking K, Daus A, Thielemann C, Stuhmer W, Wolf F (2016)
Growing neuronal islands on multi-electrode arrays using an accurate positioning-muCP device
Journal of Neuroscience Methods
257 :194
Samhaber R, Schottdorf M, El Hady A, Broking K, Daus A, Thielemann C, Stuhmer W, Wolf F (2016)
Journal of Neuroscience Methods
257 :194