Properties of single axon excitatory postsynaptic potentials elicited in spiny interneurons by action potentials in pyramidal neurons in slices of rat neocortex
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2014, NeuroImageCitation Excerpt :Because the architecture of cerebral cortical convolutions of the cerebral cortex results in multiple orientations of cortical neurons, nc-MRI needs to be performed in at least two directions to capture the complete neuronal current signal (see, for example, Lother et al., 2013), and images in all three coordinate directions are required to reconstruct the spatial distribution of signal sources. The parameter values used in the simulation were mostly chosen from studies on cat brains (Beaulieu and Colonnier, 1983; Binzegger et al., 2004; Thomson et al., 1995, 1996). Whilst it is possible to simulate the neuronal current signals of the human brain using the model, the corresponding parameter values are largely unavailable in the literature.
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2011, Brain Research ReviewsCitation Excerpt :At high p, ‘depressing’ synapses therefore, the second EPSP (excitatory postsynaptic potential) is, on average, smaller than the first and the third smaller than the second, in a train. In contrast, the synapses constituting connections that display a low release probability, rarely release in response to just one AP, but facilitate and may augment and potentiate during repetitive stimulation (e.g. Thomson et al., 1993a, 1995; Ali et al., 1998). At low p, ‘facilitating’ synapses therefore, the second EPSP, in a train is larger than the first and the third may be larger than the second.
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