We present a method for automated spike sorting for recordings with high-density, large-scale multielectrode arrays. Exploiting the dense sampling of single neurons by multiple electrodes, an efficient, low-dimensional representation of detected spikes consisting of estimated spatial spike locations and dominant spike shape features is exploited for fast and reliable clustering into single units. Millions of events can be sorted in minutes, and the method is parallelized and scales better than quadratically with the number of detected spikes. Performance is demonstrated using recordings with a 4,096-channel array and validated using anatomical imaging, optogenetic stimulation, and model-based quality control. A comparison with semi-automate...
Simultaneous recordings of multiple neuron activities with multi-channel extracellular electrodes ar...
International audienceThe new generation of silicon-based multielectrodes comprising hundreds or mor...
Marius Pachitariu, Nick Steinmetz, Shabnam Kadir, Matteo Carandini, and Kenneth Harris, ‘Fast and ac...
We present a method for automated spike sorting for recordings with high-density, large-scale multie...
electrophysiology; high-density multielectrode array; neural cultures; retina; spike sortin
International audienceIn recent years, arrays of extracellular electrodes have been developed and ma...
International audienceIn recent years, multielectrode arrays and large silicon probes have been deve...
This work deals with the development and evaluation of algorithms that extract sequences of single n...
Neurons communicate through electrophysiological signals, which may be recorded using electrodes ins...
In order to determine patterns of neural activity, spike signals recorded by extracellular electrode...
Developments in microfabrication technology have enabled the production of neural electrode arrays w...
Understanding the detailed dynamics of neuronal networks will require the simultaneous measurement o...
Recording from a large neuronal population of neurons is a crucial challenge to unravel how informat...
Abstract Developing high-density electrodes for recording large ensembles of neurons provides a uniq...
Simultaneous recordings of multiple neuron activities with multi-channel extracellular electrodes ar...
International audienceThe new generation of silicon-based multielectrodes comprising hundreds or mor...
Marius Pachitariu, Nick Steinmetz, Shabnam Kadir, Matteo Carandini, and Kenneth Harris, ‘Fast and ac...
We present a method for automated spike sorting for recordings with high-density, large-scale multie...
electrophysiology; high-density multielectrode array; neural cultures; retina; spike sortin
International audienceIn recent years, arrays of extracellular electrodes have been developed and ma...
International audienceIn recent years, multielectrode arrays and large silicon probes have been deve...
This work deals with the development and evaluation of algorithms that extract sequences of single n...
Neurons communicate through electrophysiological signals, which may be recorded using electrodes ins...
In order to determine patterns of neural activity, spike signals recorded by extracellular electrode...
Developments in microfabrication technology have enabled the production of neural electrode arrays w...
Understanding the detailed dynamics of neuronal networks will require the simultaneous measurement o...
Recording from a large neuronal population of neurons is a crucial challenge to unravel how informat...
Abstract Developing high-density electrodes for recording large ensembles of neurons provides a uniq...
Simultaneous recordings of multiple neuron activities with multi-channel extracellular electrodes ar...
International audienceThe new generation of silicon-based multielectrodes comprising hundreds or mor...
Marius Pachitariu, Nick Steinmetz, Shabnam Kadir, Matteo Carandini, and Kenneth Harris, ‘Fast and ac...