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Bursting neuronal

Luebke, J. I., Greene, R. W., Semba, K. et at (1992). Serotonin hyperpolarizes cholinergic low-threshold burst neurons in the rat laterodorsal tegmental nucleus in vitro. Proc. Natl. Acad. Sci. USA 89, 743-7. [Pg.52]

McCarley, R. W., Nelson, J. P. Hobson, J. A. (1978). PGO burst neurons correlative evidence for neuronal generators of PGO waves. Science 201, 209-62. [Pg.273]

Belykh, I., de Lange, E., and Hasler, M. Synchronization of bursting neurons what matters in the network topology. [Pg.226]

Most of the research on CR was focused on the case of white noise. White noise is a good approximation as long a.s the intrinsic time scale.s of the deterministic system are much larger than the correlation time of the external fiuctnatioiis. This is the case for example in neuronal dynamics where a neuron can be exteniallj forced by another randomly bursting neuron. In general, when deterministic and stochastic time scales are not well separated from each other, not only the amplitude but also the temporal correlation is expected to influence iioise-induced phenomena as CR. In... [Pg.21]

Canavier, J.W. Clark J.H. Byrne. 1990. Routes to chaos in a model of a bursting neuron. Biophys. J. 57 1245-51. [Pg.531]

Plant, R.E. 1978. The effects of calcium on bursting neurons. A modeling study. Biophys. J. 21 217-37. [Pg.572]

Gazelles, B., Courbage, M., Rabinovich, M.I. Anti-phase regularization of coupled chaotic maps modeling bursting neurons. Europhys. Lett. 56, 504-509 (2001)... [Pg.30]

There are two types of neurons within the MLBN, the EBN and the inhibitory burst neurons (IBN). The EBN and IBN label describe the synaptic activity upon the motoneurons the EBN excite and are responsible for the burst firing, and the IBN inhibit and are responsible for the pause. A mirror image of these neurons exists on both sides of the midline. The IBN inhibit the EBN on the contralateral side. [Pg.266]

Snail RPal bursting neuron A model including a fast sodium current, a delayed rectifier potassium current, a voltage-dependent calcium current, a voltage- and calcium-dependent calcium current, and a leak current was constructed by Berezetskaya et al. [1996] to investigate the bursting behavior of pacemaker cells of the Helix pomatia. [Pg.359]

Berezetskaya, N.M., V.N. Kharkyanen, and N.I. Kononenko (1996). Mathematical model of pacemaker activity in bursting neurons of snail. Helix pomatia. J. Theor. Biol. 183,207-218. [Pg.364]

Butera, R.J., J.W. CJark, C.C. Canavier, D.A. Baxter, and J.H. Byrne (1995). Analysis of the effects of modulatory agents on a modeled bursting neuron dynamic interactions between voltage and calcium dependent stores. /. Comput. Neurosci. 2,19—44. [Pg.364]

Figure 40. Proposed events (I to VI) responsible for pacemaker waves in spontaneously bursting neurons. The wave at the left is shown without action potentials for the sake of simplicity. See text for description of processes involved. (Reference 193, p. 143.)... Figure 40. Proposed events (I to VI) responsible for pacemaker waves in spontaneously bursting neurons. The wave at the left is shown without action potentials for the sake of simplicity. See text for description of processes involved. (Reference 193, p. 143.)...
In response to injected sinusoidal currents the Helix pomatia neurons demonstrate a phase-locking behaviour consisting of a train of repetitive action potentials whose pattern is frequency dependent. At low values of current frequency these neurons exhibit patterns qualitatively similar to those of normally bursting neurons. [Pg.80]

Linton, P.M., 79-8 Lipowsky, H.K., 61-1 Lippitts,B 49-18 Lipreading, 71-5 Lipshitz, H., 50-10 Lissner, H.R., 52-6 Lister, J., V-3 Liu, D., 39-25 Ljubljana system, 31-2 LLBN (long-lead burst neurons), 16-14-16-16 Lobdell, T.E., 53-8 Local current loop movement, 19-11-19-12... [Pg.1539]

SMG (supramarginal gyrus), 5-14 Smith Mcrae, J., 62-7 Smith, R.O., 74-2-74-3 Smith, R.V., 73-2 Smooth muscle, 22-16 Snail RPal bursting neuron,... [Pg.1550]

Data were collected from a rhesus monkey that executed a total of 27 saccades in our data set for 4°, 8°, 16°, and 20° target movements. Neuron data were recorded from the long lead burst neuron (5 sac-cades), excitatory burst neuron (17 saccades) and the agonist burst-tonic neuron (5 saccades). The firing of the burst tonic neuron is similar to the motoneuron that drives the agonist muscle during a saccade. Figure 25.12 shows the estimation results for three saccades (4°, 8°, and 15°). [Pg.497]

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See also in sourсe #XX -- [ Pg.17 , Pg.178 , Pg.204 ]

See also in sourсe #XX -- [ Pg.17 , Pg.178 , Pg.204 ]



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