The ideal neural stimulatory information transducer must be able to activate individual neural fibers within a fascicular bundle, for example in a sensory or motor nerve. In a local approach using microelectrodes it is sufficient to apply current pulses to one neural node in order to reach the stimulatory threshold of the so-called activating functions. To this end, a multielectrode array in silicon technology is being inserted into a fascicle. It is one out of several possible approaches using silicon technology. This report focuses on the sensitivity and selectivity of such a neuro-electronic interface, using monopolar cathodic stimulation pulses at one or two electrodes. A test for selectivity has been developed, using refractory propert...
Multipoint electrical stimulation and extracellular recording in the central nervous system are two ...
AbstractA laminar 24-contact silicon electrode was designed for acute extracellular neural recording...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...
A multielectrode array in silicon technology, as well as experimental paradigms and model calculatio...
This minisymposium paper gives an overview of experimental, modeling, design and microfabrication st...
International audienceWe introduce a new approach for the investigation of multipolar selective neur...
In this work a cylindrical electrode array to be used for electrical stimulation of sacral nerve roo...
Electrical stimulation in the central nervous system is a valuable technique for studying neural sys...
A portable neural activity acquisition and stimulation system by means of tfLIFE implantable electro...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...
A three-dimensional array of microelectrodes for use in intraneural stimulation and recording is pre...
Neural stimulation is an established treatment methodology for an increasing number of diseases. Ele...
Artificial electrical stimulation of motor nerves for muscle control can be made selective by using ...
Abstract: Neural interface is man-made information pathway through which biological nerve system cou...
The recruitment characteristics of fascicle-selective nerve stimulation by a multigroove electrode h...
Multipoint electrical stimulation and extracellular recording in the central nervous system are two ...
AbstractA laminar 24-contact silicon electrode was designed for acute extracellular neural recording...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...
A multielectrode array in silicon technology, as well as experimental paradigms and model calculatio...
This minisymposium paper gives an overview of experimental, modeling, design and microfabrication st...
International audienceWe introduce a new approach for the investigation of multipolar selective neur...
In this work a cylindrical electrode array to be used for electrical stimulation of sacral nerve roo...
Electrical stimulation in the central nervous system is a valuable technique for studying neural sys...
A portable neural activity acquisition and stimulation system by means of tfLIFE implantable electro...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...
A three-dimensional array of microelectrodes for use in intraneural stimulation and recording is pre...
Neural stimulation is an established treatment methodology for an increasing number of diseases. Ele...
Artificial electrical stimulation of motor nerves for muscle control can be made selective by using ...
Abstract: Neural interface is man-made information pathway through which biological nerve system cou...
The recruitment characteristics of fascicle-selective nerve stimulation by a multigroove electrode h...
Multipoint electrical stimulation and extracellular recording in the central nervous system are two ...
AbstractA laminar 24-contact silicon electrode was designed for acute extracellular neural recording...
Abstract—This work presents a new method of fabricating implantable multielectrode arrays on lightly...