Literature DB >> 24812401

Spatially distributed local fields in the hippocampus encode rat position.

Gautam Agarwal1, Ian H Stevenson, Antal Berényi, Kenji Mizuseki, György Buzsáki, Friedrich T Sommer.   

Abstract

Although neuronal spikes can be readily detected from extracellular recordings, synaptic and subthreshold activity remains undifferentiated within the local field potential (LFP). In the hippocampus, neurons discharge selectively when the rat is at certain locations, while LFPs at single anatomical sites exhibit no such place-tuning. Nonetheless, because the representation of position is sparse and distributed, we hypothesized that spatial information can be recovered from multiple-site LFP recordings. Using high-density sampling of LFP and computational methods, we show that the spatiotemporal structure of the theta rhythm can encode position as robustly as neuronal spiking populations. Because our approach exploits the rhythmicity and sparse structure of neural activity, features found in many brain regions, it is useful as a general tool for discovering distributed LFP codes.

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Year:  2014        PMID: 24812401      PMCID: PMC4909490          DOI: 10.1126/science.1250444

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


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