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Multi-Electrode Arrays (MEAs). March 25, 2005. Introduction. Multi-electrode Arrays, or MEAs, are quickly becoming a common tool to investigate patterns of activity. Often see 4-, 8-, 16-, or even 60-channel array – experimenter’s choice
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Multi-Electrode Arrays (MEAs) March 25, 2005
Introduction Multi-electrode Arrays, or MEAs, are quickly becoming a common tool to investigate patterns of activity. Often see 4-, 8-, 16-, or even 60-channel array – experimenter’s choice Made of : microwires (stainless steel, tungsten, platinum/iridium) coated with nonconductive polymers (Teflon or formvar), or silicon; tip diameter of 1-5 mm Horizontal array: inter-electrode separation of 400-500 mm Vertical array: interelectrode separation 250-300 mm
Luo & Katz, 2003recording in a behaving mouse Response of a neuron from a CBA male during investigation of anesthetized stimulus animals including BALBc male, CBA male, BALBc female, and CBA female, demonstrating excitation by a BALBc male and inhibition by a CBA female. Sound, playback of spiking activity. Colored bar on the right, the cell’s mean firing rate; red, excitation; blue, inhibition. Note the gradual increase of neuronal activity, strong excitatory response to its investigation of the face area of the BALBc male, and the inhibition following strong excitation.
An economical multi-channel cortical electrode array for extended periods of recording during behavior Rennaker, R.L., Ruyle, A.M., Street, S.E. and A.M. Sloan. (2005) J. Neurosci Meth 142:97-105.
Multi-unit recordings reveal context-dependent modulation of synchrony in odor-specific neural ensembles Christensen, T.A., Pawlowski, V.M., Lei, H. and J.G. Hildebrand (2000) Nat Neurosci 3:927-931.
Christensen et al. - Introduction • Studies in Manduca Sexta, a moth, that is a common model for insect olfaction. • The antennal lobe (AL) is a structural and functional analogue of the mammalian olfactory bulb (OB) • Glomerulus = functional unit of the AL (and OB) that receives odor information from a single type of sensory neuron • each glomerulus then sends odor-specific information out to higher level brain centers via the projection neurons (PNs) • glomeruli are thought to be activated in stereotypical patterns that then make up an “odor map” of each odor
Recording spikes from a large fraction of the ganglion cells in a retinal patch Segev, R., Goodhouse, J., Puchalla, J. and M.J. Berry II 2003 Nature Neurosci7:1155-1162.
Segev et al. - Introduction • Why the retina? • Promising for systematic study of large populations of neurons because of its modular organization – recording from a small patch of ganglion cells should sample its full functional diversity • Limitations of multielectrode arrays? • Sorting the signals obtained into spike trains from individual neurons • This paper: • Development of a new method of recording and spike sorting that uses a dense array and combines signals from up to 30 electrodes to sort spikes. Records from ganglion cells, output cells of retina.
Segev et al. - Introduction • How accomplished? • Find the average voltage pattern on the array when a ganglion cell fires a spike • Use an iterative algorithm to match multiple spike patterns to the raw data • Because every ganglion cell occupies a unique position in space, and because extracellular signals decay rapidly with distance, each ganglion cell produces a unique pattern of activity on the dense array • This unique pattern can be used to identify the source of overlapping spikes, which might appear ambiguous if using only one electrode.
