Ketamine disrupts theta modulation of gamma in a computer model of hippocampus (Neymotin et al 2011)

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Accession:139421
"Abnormalities in oscillations have been suggested to play a role in schizophrenia. We studied theta-modulated gamma oscillations in a computer model of hippocampal CA3 in vivo with and without simulated application of ketamine, an NMDA receptor antagonist and psychotomimetic. Networks of 1200 multi-compartment neurons (pyramidal, basket and oriens-lacunosum moleculare, OLM, cells) generated theta and gamma oscillations from intrinsic network dynamics: basket cells primarily generated gamma and amplified theta, while OLM cells strongly contributed to theta. ..."
Reference:
1 . Neymotin SA, Lazarewicz MT, Sherif M, Contreras D, Finkel LH, Lytton WW (2011) Ketamine disrupts theta modulation of gamma in a computer model of hippocampus Journal of Neuroscience 31(32):11733-11743 [PubMed]
Model Information (Click on a link to find other models with that property)
Model Type: Realistic Network;
Brain Region(s)/Organism: Hippocampus;
Cell Type(s): Hippocampus CA3 pyramidal cell; Hippocampus CA3 basket cell; Hippocampus CA3 stratum oriens lacunosum-moleculare interneuron;
Channel(s): I L high threshold; I A; I K; I K,Ca;
Gap Junctions:
Receptor(s): GabaA; NMDA; Glutamate;
Gene(s): HCN1; HCN2;
Transmitter(s): Gaba; Glutamate;
Simulation Environment: NEURON; Python;
Model Concept(s): Oscillations; Synchronization; Therapeutics; Pathophysiology; Schizophrenia; Information transfer; Brain Rhythms;
Implementer(s): Lazarewicz, Maciej [mlazarew at gmu.edu]; Neymotin, Sam [samn at neurosim.downstate.edu];
Search NeuronDB for information about:  Hippocampus CA3 pyramidal cell; Hippocampus CA3 basket cell; GabaA; NMDA; Glutamate; I L high threshold; I A; I K; I K,Ca; Gaba; Glutamate;
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hpcdemo
readme.html
CA1ih.mod *
CA1ika.mod *
CA1ikdr.mod *
CA1ina.mod *
caolmw.mod *
capr.mod *
icaolmw.mod *
icapr.mod *
iholmkop.mod *
iholmw.mod *
ihpyrkop.mod *
kahppr.mod *
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kapyrkop.mod *
kcaolmw.mod *
kcpr.mod *
kdrbwb.mod *
kdrolmkop.mod *
kdrpr.mod *
kdrpyrkop.mod *
misc.mod *
MyExp2Syn.mod *
MyExp2SynAlpha.mod *
MyExp2SynBB.mod *
MyExp2SynNMDA.mod *
MyExp2SynNMDABB.mod *
nafbwb.mod *
nafolmkop.mod *
nafpr.mod *
nafpyrkop.mod *
stats.mod
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declist.hoc *
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mosinit.py
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params.py
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simctrl.hoc *
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: $Id: capr.mod,v 1.2 2010/12/13 21:31:31 samn Exp $ 
COMMENT

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
//
// NOTICE OF COPYRIGHT AND OWNERSHIP OF SOFTWARE
//
// Copyright 2007, The University Of Pennsylvania
// 	School of Engineering & Applied Science.
//   All rights reserved.
//   For research use only; commercial use prohibited.
//   Distribution without permission of Maciej T. Lazarewicz not permitted.
//   mlazarew@seas.upenn.edu
//
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

ENDCOMMENT



TITLE rcadecay

INDEPENDENT {t FROM 0 TO 1 WITH 10 (ms)}

NEURON {
	SUFFIX capr
	USEION ca READ ica WRITE cai
	RANGE  phi, beta
}

UNITS {

	(molar) = (1/liter)
	(mM)	= (millimolar)
	(um)	= (micron)
	(mA)	= (milliamp)
}

PARAMETER {

	phi             = 0.13e3 (milli-cm2/liter-milliamp-ms)
	beta            = 0.075 (/ms)
}
ASSIGNED {

  ica (milliamp/cm2)
}

STATE {	cai (milli/liter) }

INITIAL {
 
  cai= - phi * ica/ beta
  :cai = 0.2
}

BREAKPOINT {

  if       ( cai < 0 )      { cai = 0 
  } else                    { SOLVE state METHOD cnexp }

}

UNITSOFF

DERIVATIVE state { cai' = - phi * ica - beta * cai  }

UNITSON

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