Electrical stimulation of nervous tissue with single stimulating electrodes is a technique widely used for the investigation of nervous system function. While it has proved to be useful in all kinds of experiments, single electrode stimuli are, however, far from being 'natural'. In most parts of the living brain, incoming activity results from the firing of a large number of presynaptic neurons, thus reflecting a complex combination of space and time aspects of neural activity. In this paper, a multi-electrode stimulating system is introduced which allows for the generation of fast space-time stimulus patterns. An example for the application of dynamic input patterns to the cerebellar cortex in vitro is given. The corresponding experiments ...
Starting from macroscopic and microscopic facts of cerebellar histology, we propose a new functional...
This paper introduces improved techniques for multichannel extracellular electrophysiological record...
A new view in systems neuroscience is that variability of spikes is centrally coordinated and that t...
Electrical stimulation of nervous tissue with single stimulating electrodes is a technique widely us...
We describe a novel brain slice system ‘SliceMaster’ that allows electrophysiological recordings fro...
This paper describes the design, microfabrication, electrical characterization and biological evalua...
Here we demonstrate a facile method by which to deliver complex spatiotemporal stimulation to neural...
Modern multielectrode array (MEA) systems can record the neuronal activity from thousands of electro...
Starting from macroscopic and microscopic facts of cerebellar histology, we propose a new functional...
Reflected at any level of organization of the central nervous system, most of the processes ranging ...
We have developed an ultra small, translucent array of electrodes for use in the parasaggital cerebe...
Here we present evidence that the cerebellar cortex in vivo specifically responds to sequential inpu...
Large circuits of neurons are employed by the brain to encode and process information. How this enco...
Electrical stimulation is ubiquitous as a method for activating neuronal tissue, but there is still ...
Several multi-electrode array devices integrating planar metal electrodes were designed in the past ...
Starting from macroscopic and microscopic facts of cerebellar histology, we propose a new functional...
This paper introduces improved techniques for multichannel extracellular electrophysiological record...
A new view in systems neuroscience is that variability of spikes is centrally coordinated and that t...
Electrical stimulation of nervous tissue with single stimulating electrodes is a technique widely us...
We describe a novel brain slice system ‘SliceMaster’ that allows electrophysiological recordings fro...
This paper describes the design, microfabrication, electrical characterization and biological evalua...
Here we demonstrate a facile method by which to deliver complex spatiotemporal stimulation to neural...
Modern multielectrode array (MEA) systems can record the neuronal activity from thousands of electro...
Starting from macroscopic and microscopic facts of cerebellar histology, we propose a new functional...
Reflected at any level of organization of the central nervous system, most of the processes ranging ...
We have developed an ultra small, translucent array of electrodes for use in the parasaggital cerebe...
Here we present evidence that the cerebellar cortex in vivo specifically responds to sequential inpu...
Large circuits of neurons are employed by the brain to encode and process information. How this enco...
Electrical stimulation is ubiquitous as a method for activating neuronal tissue, but there is still ...
Several multi-electrode array devices integrating planar metal electrodes were designed in the past ...
Starting from macroscopic and microscopic facts of cerebellar histology, we propose a new functional...
This paper introduces improved techniques for multichannel extracellular electrophysiological record...
A new view in systems neuroscience is that variability of spikes is centrally coordinated and that t...