Intraneural stimulation using 2D wire-microelectrode arrays. II. Comparison with single-wire electrode results

Abstract: -A two-dimensional dmmicroelectrode array was inserted into the peroneal nerve of the rat through an incision. For each of the electrodes in the array the corresponding twitch-force recruftment curve was recorded from the extensor digitorum longus muscle @DL). The mean value and standard deviation of the threshold current were found to be not significantly different from those for single wire electrodes. This suggests that the incision does not introduce significant (additional) current leakage.

“…Due to the size of the cells involved which are in the micron-scale, an attractive technique for manufacturing MEAs is microfabrication, which has been used to make planar (2D) devices. Several microfabricated 2D arrays have been reported in the last 35 years for extracellular stimulation and recording from cultured neuronal cells and brain slices [1][2][3]. However as these cultures mature to a 3D form (and since brain slices contain substantial 3D neuronal structure), they become difficult to study using planar MEAs.…”

Microfabrication technologies for a coupled three-dimensional microelectrode, microfluidic array

“…Due to the size of the cells involved which are in the micron-scale, an attractive technique for manufacturing MEAs is microfabrication, which has been used to make planar (2D) devices. Several microfabricated 2D arrays have been reported in the last 35 years for extracellular stimulation and recording from cultured neuronal cells and brain slices [1][2][3]. However as these cultures mature to a 3D form (and since brain slices contain substantial 3D neuronal structure), they become difficult to study using planar MEAs.…”

Microfabrication technologies for a coupled three-dimensional microelectrode, microfluidic array