scholarly article | Q13442814 |
P356 | DOI | 10.1063/1.4829620 |
P698 | PubMed publication ID | 24387587 |
P50 | author | Frances K Skinner | Q55296625 |
Katie A Ferguson | Q59557599 | ||
P2093 | author name string | F K Skinner | |
K A Ferguson | |||
P2860 | cites work | Neurophysiological and Computational Principles of Cortical Rhythms in Cognition | Q24630528 |
Cortical parvalbumin interneurons and cognitive dysfunction in schizophrenia | Q26822851 | ||
On the Theory of the Brownian Motion | Q27438246 | ||
The Brian simulator | Q27500449 | ||
Neuronal oscillations in cortical networks | Q28268592 | ||
Fluctuating synaptic conductances recreate in vivo-like activity in neocortical neurons | Q28366442 | ||
Synaptic mechanisms of synchronized gamma oscillations in inhibitory interneuron networks | Q29619466 | ||
On-demand optogenetic control of spontaneous seizures in temporal lobe epilepsy | Q30533949 | ||
Mechanisms of gamma oscillations | Q33726937 | ||
Early alterations in hippocampal circuitry and theta rhythm generation in a mouse model of prenatal infection: implications for schizophrenia | Q34125236 | ||
Glutamate receptor subtypes mediating synaptic activation of prefrontal cortex neurons: relevance for schizophrenia | Q34583614 | ||
Downregulation of parvalbumin at cortical GABA synapses reduces network gamma oscillatory activity | Q35670062 | ||
Microcircuits in action--from CPGs to neocortex | Q36238814 | ||
Hippocampal theta rhythm and its coupling with gamma oscillations require fast inhibition onto parvalbumin-positive interneurons | Q37088610 | ||
Gamma oscillations in the hippocampus | Q37799691 | ||
Cellular-based modeling of oscillatory dynamics in brain networks. | Q37989276 | ||
Dysconnectivity, large-scale networks and neuronal dynamics in schizophrenia | Q38066308 | ||
Ketamine disrupts θ modulation of γ in a computer model of hippocampus. | Q38537612 | ||
Awake hippocampal sharp-wave ripples support spatial memory | Q40968649 | ||
Inhibition dominates in shaping spontaneous CA3 hippocampal network activities in vitro. | Q42442627 | ||
Spontaneous rhythmic field potentials of isolated mouse hippocampal-subicular-entorhinal cortices in vitro. | Q42499185 | ||
The MeCP2-null mouse hippocampus displays altered basal inhibitory rhythms and is prone to hyperexcitability. | Q42522168 | ||
Self-generated theta oscillations in the hippocampus | Q43250900 | ||
A fundamental oscillatory state of isolated rodent hippocampus | Q43961416 | ||
Alterations in hippocampal network oscillations and theta-gamma coupling arise before Aβ overproduction in a mouse model of Alzheimer's disease | Q45344473 | ||
An in vitro model of hippocampal sharp waves: regional initiation and intracellular correlates | Q46384275 | ||
Size does matter: generation of intrinsic network rhythms in thick mouse hippocampal slices | Q47401109 | ||
Frequency of gamma oscillations routes flow of information in the hippocampus | Q47810292 | ||
Synchronization and oscillatory dynamics in heterogeneous, mutually inhibited neurons | Q47909471 | ||
Theta phase modulates multiple layer-specific oscillations in the CA1 region. | Q48274307 | ||
Common features of diverse circuits | Q48420626 | ||
Inhibitory networks of fast-spiking interneurons generate slow population activities due to excitatory fluctuations and network multistability | Q48434194 | ||
Fast and slow γ rhythms are intrinsically and independently generated in the subiculum. | Q48934089 | ||
Hippocampus | Q56092161 | ||
Neurobiology of disease | Q57828010 | ||
P433 | issue | 4 | |
P304 | page(s) | 046108 | |
P577 | publication date | 2013-12-01 | |
P1433 | published in | Chaos | Q13461585 |
P1476 | title | Modeling oscillatory dynamics in brain microcircuits as a way to help uncover neurological disease mechanisms: a proposal | |
P478 | volume | 23 |
Q38632897 | Combining Theory, Model, and Experiment to Explain How Intrinsic Theta Rhythms Are Generated in an In Vitro Whole Hippocampus Preparation without Oscillatory Inputs. |
Q50793278 | Examining the limits of cellular adaptation bursting mechanisms in biologically-based excitatory networks of the hippocampus. |
Q89493922 | Inhibitory Network Bistability Explains Increased Interneuronal Activity Prior to Seizure Onset |
Q42745507 | Introduction to focus issue: rhythms and dynamic transitions in neurological disease: modeling, computation, and experiment. |
Q34433662 | Simple, biologically-constrained CA1 pyramidal cell models using an intact, whole hippocampus context |
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