NOISE-INDUCED COHERENT FIRING PATTERNS IN SMALL NEURAL ENSEMBLES WITH IONIC COUPLING

Cite this article as:

Postnov D. E., Zhirin R. А., Serdobintseva Y. . NOISE-INDUCED COHERENT FIRING PATTERNS IN SMALL NEURAL ENSEMBLES WITH IONIC COUPLING. Izvestiya VUZ. Applied Nonlinear Dynamics, 2008, vol. 16, iss. 4, pp. 83-100. DOI: https://doi.org/10.18500/0869-6632-2008-16-4-83-100

By means of modeling and numeric simulation we consider, how the rise of extracellular potassium concentration due to the neuronal activity can affect the firing patterns of the neighboring neurons. To take into account mentioned above effects, we suggest simple extension of Hodgkin-Huxley model. We consider the behavior of 2, 4, and 8 excitable neurons being forced by external noisy stimulus. We reveal the main effects being the attributes of ionic coupling that are include the emergence of new time scales and spatially-ordered firing patterns.

Authors: 
Postnov D. E., Saratov State University, ul. Astrakhanskaya, 83, Saratov, 410012, Russia , postnov@info.sgu.ru
Zhirin R. А., Saratov State University, ul. Astrakhanskaya, 83, Saratov, 410012, Russia ,
Serdobintseva Y. А., Saratov State University, ul. Astrakhanskaya, 83, Saratov, 410012, Russia ,
Key words: 
-
DOI: 
10.18500/0869-6632-2008-16-4-83-100
Literature

1. Николлс Дж.Г., Мартин А.Р., Валлас Б.Дж.,Фукс П.А. От нейрона к мозгу. М.: УРСС, 2003. 672 с.

2. Рубин А.Б. Биофизика. М.: Высш. шк., 1987.

3. Keener J., Sneyd J. Mathematical Physiology, Springer, New York, Inc, 2001.

4. Sykov E. Extracellular K+ accumulation in the central nervous system // Prog. Biophys. Mol. Biol. 1983. Vol. 42 P. 135.

5. Deitmer J.W., Rose C.R., Munsch T., Schmidt J. Nett, W., Schneider H.-P., Lohr C. Leech giant glial cell // Functional Role in a Simple Nervous System GLIA. 1999. Vol. 28. P. 175.

6. Hansen A.J. The extracellular potassium concentration in brain cortex following oschemia in hypo- and hyperglycemic rats //Acta Physiol. Scand. 1978. Vol. 102. P. 324.

7. Yan G.X., Chen J., Yamada K.A., Kleber A.G. and Corr P.G. Contribution of shrinkage of extracellular space to extracellular K+ accumulation in myocardial ischemia at the rabbit // J.Physiol. 1996. Vol. 490. P. 215.

8. Yi C.-S., Fogelson A.L., Keener J.P. and Peskin C.S. A mathematical study of volume shifts and ionic concentration changes during ischemia and hypoxia // Journal of Theoretical Biology. 2003. Vol. 220, No 1. P. 83.

9. Bazhenov M., Timofeev I., Steriade M. and Sejnowski T.J. Potassium model for slow (2-3 Hz) neocortical paroxysmal oscillations in vivo // Journal of Neurophisiology. 2004. Vol. 92 (2): 1116-32.

10. Eun-Hyoung Park and Durand D.M.. Role of potassium lateral diffusion in non- synaptic epilepsy: A computational study // Journal of Theoretical Biology. 2006. Vol. 238, Issue 3. P. 666.

11. Postnov D.E., Ryazanova L.S., Sosnovtseva O.S., Mosekilde E. Neural synchronization via potassium signalling // International Jouranal of Neural Systems. 2006. Vol. 16, No. 2. P. 99.

12. Lee S.G., Neiman A., Kim S. Coherence resonance in a Hodgkin–Huxley neuron // Phys. Rev. E. 1998. Vol. 57. P. 3292.

13. Pikovsky A., Kurth J. Coherence resonance in a noise–driven excitable systems / Phys. Rev. Lett. 1997. Vol. 78. P. 775.

14. Han S.K., Yim T.G., Postnov D.E., and Sosnovtseva O.V. Interacting coherence resonance oscillators // Phys. Rev. Lett. 1999. Vol. 83. P. 1771.

15. Postnov D.E., Sosnovtseva O.V., Han S.K., and Kim W.S. Noise-induced multimode behavior in excitable systems // Phys. Rev. 2002. Vol. 66. P. 016203.

16. Mosekilde E., Sosnovtseva O.V., Postnov D., Braun H.A., and Huber M.T. Noiseactivated and noise-induced rhythms in neural systems // Nonlinear Science. 2004. Vol. 11. P. 449.

17. Hodgkin A.L., Huxley A.F. A quantitative description of membrane current and its application to conduction and excitation in a nerve // J. Physiol. London. 1952. Vol. 117. P. 500.

18. Guantes R. and de Polavieja G.G. Variability in noise-driven integrator neurons //  Phys. Rev. E. 2005. Vol. 71. 011911(1-4).

19. Baccus S.A. // Proc. Natl. Acad. Sci. USA. 1998. Vol. 95, 8345.

20. Постнов Д.Э., Жирин Р.А. Моделирование колебательных и волновых процессах в двумерных средах произвольной геометрии. Свидетельство об официальной регистрации программы для ЭВМ 2007614145 от 28.09.2007.

Heading: 
Journal in journal
Status: 
одобрено к публикации
Short Text (PDF): 
a2008no4p083.doc_.pdf
Full Text (PDF): 
2008no4p083.pdf

BibTeX

@article{Постнов -IzvVUZ_AND-16-4-83,
author = {D. E. Postnov and R. А. Zhirin and Y. А. Serdobintseva },
title = {NOISE-INDUCED COHERENT FIRING PATTERNS IN SMALL NEURAL ENSEMBLES WITH IONIC COUPLING},
year = {2008},
journal = {Izvestiya VUZ. Applied Nonlinear Dynamics},
volume = {16},number = {4},
url = {https://old-andjournal.sgu.ru/en/articles/noise-induced-coherent-firing-patterns-in-small-neural-ensembles-with-ionic-coupling},
address = {Саратов},
language = {russian},
doi = {10.18500/0869-6632-2008-16-4-83-100},pages = {83--100},issn = {0869-6632},
keywords = {-},
abstract = {By means of modeling and numeric simulation we consider, how the rise of extracellular potassium concentration due to the neuronal activity can affect the firing patterns of the neighboring neurons. To take into account mentioned above effects, we suggest simple extension of Hodgkin-Huxley model. We consider the behavior of 2, 4, and 8 excitable neurons being forced by external noisy stimulus. We reveal the main effects being the attributes of ionic coupling that are include the emergence of new time scales and spatially-ordered firing patterns. }}