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Higher-Order Spike Triggered Analysis of Neural Oscillators

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  • Keisuke Ota
  • Toshiaki Omori
  • Hiroyoshi Miyakawa
  • Masato Okada
  • Toru Aonishi

Abstract

For the purpose of elucidating the neural coding process based on the neural excitability mechanism, researchers have recently investigated the relationship between neural dynamics and the spike triggered stimulus ensemble (STE). Ermentrout et al. analytically derived the relational equation between the phase response curve (PRC) and the spike triggered average (STA). The STA is the first cumulant of the STE. However, in order to understand the neural function as the encoder more explicitly, it is necessary to elucidate the relationship between the PRC and higher-order cumulants of the STE. In this paper, we give a general formulation to relate the PRC and the nth moment of the STE. By using this formulation, we derive a relational equation between the PRC and the spike triggered covariance (STC), which is the covariance of the STE. We show the effectiveness of the relational equation through numerical simulations and use the equation to identify the feature space of the rat hippocampal CA1 pyramidal neurons from their PRCs. Our result suggests that the hippocampal CA1 pyramidal neurons oscillating in the theta frequency range are commonly sensitive to inputs composed of theta and gamma frequency components.

Suggested Citation

  • Keisuke Ota & Toshiaki Omori & Hiroyoshi Miyakawa & Masato Okada & Toru Aonishi, 2012. "Higher-Order Spike Triggered Analysis of Neural Oscillators," PLOS ONE, Public Library of Science, vol. 7(11), pages 1-10, November.
    • Handle: RePEc:plo:pone00:0050232
    DOI: 10.1371/journal.pone.0050232
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