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References

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Jay T.M., Witter M.P., 1991, J. Comp. Neurol., 313: 574-586. L tkepohl H., 1993, Springer. ... PC1 of firing rates (blue), MAR model with p = 30 (red) ... – PowerPoint PPT presentation

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Title: References


1

397.5 UU84
Methods
  • Recordings
  • Electrophysiological recordings were conducted in
    the hippocampus and mPFC of male
    isoflurane-anaesthetised Lister-hooded rats,
    weighing 200-350g. Multiple single-unit and LFP
    activity were recorded with a Plexon MAP system
    using micro-electrode arrays placed in each
    structure. Recording sites were confirmed by
    histology.
  • Rats were administered KA (10 mg kg-1) and
    vehicle (5 EtOH / 5 Cremophor EL (Fluka
    Biochemika) / 90 saline v/v n4). After a 33
    min period of basal recording, KA was
    administered intra-peritoneally resulting in a
    period of approximately 20-30 min to onset of
    drug-evoked responses 2,3.
  • Two recording sets are
  • presented and analysed here
  • Cases 1 and 2.
  • LFPs Numerical Implementation
  • Spike data processing, MAR/PDC calculation and
    plotting were performed with our MATLAB software
    package which includes scripts from the
    toolboxes Biosig (http//biosig.sourceforge.net
    ) and NeuroSpec (http//www.neurospec.org).
  • Model order selection criteria (Bayesian
    Information Criterion (BIC), Akaike Criterion)
    failed to yield an optimal model order (p). They
    kept decreasing with increasing model order.
  • Representation of the most medial (?) and
    lateral (?) dorsal hippocampal recording sites.
  • Representation of the prelimbic mPFC (?)
    recording sites.
  • Representative trace of basal activity in LFPs
    recorded from mPFC, medial hippocampus and
    lateral hippocampus.
  • We set the model order to p 70. It yields a
    MAR model that produces the original LFP power
    spectrum accurately. Much lower p gives models
    with bad fit. Much higher p does not particularly
    improve the fit.
  • Spike Trains Firing Rates processing
  • Each spike train is divided into (overlapping)
    bins. The mean firing rate is calculated in each
    bin.
  • Principal Components Analysis (PCA) is performed
    to group the firing rates of each brain region
    together.
  • The first principal component (PC1) of each group
    is kept so as to end up with one continuous
    function for each brain region.
  • Spike Trains Spike Times processing
  • We apply the French-Holden Algorithm 4 with
    Nyquist frequency fN.
  • Each spike (ti) in a spike train is convolved
    with the kernel
  • Equal to filtering with a low-pass
  • phase-less filter with cut-off
  • frequency fN.
  • The resulting continuous function
  • is sampled with sampling rate

spikes
  • References
  • Baccalá L.A., Sameshima K., 2001, Biol. Cybern,
    84 463-474.
  • Coomber B., O'Donoghue M. F., Mason R., 2008,
    Synapse, 62 746-755.
  • Coomber B., Taxidis I., Owen M., Mason R., 2008,
    in preparation.
  • French A.S., Holden A.V., 1971, Biol. Cyb., 8
    165-171.
  • Granger C.W.J., 1969, Econometrica, 37 424-438.
  • Hammond C., 2001, Academic Press.
  • Isomura Y. et al., 2006, Neuron, 52 871-882.
  • Jay T.M., Witter M.P., 1991, J. Comp. Neurol.,
    313 574-586.
  • Lütkepohl H., 1993, Springer.

Acknowledgments This research was supported by
the Medical Research Council, University of
Nottingham and by a Marie Curie Research Training
Fellowship
Lab web site www.nottingham.ac.uk/neuronal-netwo
rks
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