Using Higuchi’s fractal dimension in fine analysis of the effects of 2.7 mt and 10 mt static magnetic fields on the complex bursting activity of the snail br neuron

Kesic, S.; Nikolić, Ljiljana M.; Janac, Branka; Spasić, Slađana

doi:10.2298/ABS1402563K

2014

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Authors

Kesic, S.
Nikolić, Ljiljana M.

Janac, Branka

Spasić, Slađana

Article (Published version)

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Abstract

The components of complex bioelectrical activity - action potential (AP), interspike interval (ISI) and the quiet interburst interval (IBI), along with the effects of 2.7 mT and 10 mT static magnetic fields, were identified and examined in the spontaneously active Br neuron of the subesophageal ganglion complex of the garden snail Helix pomatia by fractal analysis using Higuchi's fractal dimension (FD). The normalized mean of the empirical FD distributions of bursting activity of the Br neuron were formed under different experimental conditions: before (Control), during (MF), and after exposure to the static magnetic field (AMF). Using the fractal analysis method for the first time, a separation of the AP, ISI and IBI components was successfully achieved. Our results show that fractal analysis with deconvolution of the normalized mean of the empirical FD distributions into Gaussian functions is a useful tool for revealing the effects of magnetic fields on the complexity of neuronal bio...

Keywords:

static magnetic field / Higuchi fractal dimension / bursting activity / Br neuron

Source:
Archives of Biological Sciences, 2014, 66, 2, 563-572

Publisher:

Srpsko biološko društvo, Beograd, i dr.

Funding / projects:

DOI: 10.2298/ABS1402563K

ISSN: 0354-4664

WoS: 000342265800014

Scopus: 2-s2.0-84903997300

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	1

TY  - JOUR
AU  - Kesic, S.
AU  - Nikolić, Ljiljana M.
AU  - Janac, Branka
AU  - Spasić, Slađana
PY  - 2014
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/767
AB  - The components of complex bioelectrical activity - action potential (AP), interspike interval (ISI) and the quiet interburst interval (IBI), along with the effects of 2.7 mT and 10 mT static magnetic fields, were identified and examined in the spontaneously active Br neuron of the subesophageal ganglion complex of the garden snail Helix pomatia by fractal analysis using Higuchi's fractal dimension (FD). The normalized mean of the empirical FD distributions of bursting activity of the Br neuron were formed under different experimental conditions: before (Control), during (MF), and after exposure to the static magnetic field (AMF). Using the fractal analysis method for the first time, a separation of the AP, ISI and IBI components was successfully achieved. Our results show that fractal analysis with deconvolution of the normalized mean of the empirical FD distributions into Gaussian functions is a useful tool for revealing the effects of magnetic fields on the complexity of neuronal bioelectric activity and its AP, ISI and IBI components.
PB  - Srpsko biološko društvo, Beograd, i dr.
T2  - Archives of Biological Sciences
T1  - Using Higuchi’s fractal dimension in fine analysis of the effects of 2.7 mt and 10 mt static magnetic fields on the complex bursting activity of the snail br neuron
EP  - 572
IS  - 2
SP  - 563
VL  - 66
DO  - 10.2298/ABS1402563K
ER  -

@article{
author = "Kesic, S. and Nikolić, Ljiljana M. and Janac, Branka and Spasić, Slađana",
year = "2014",
abstract = "The components of complex bioelectrical activity - action potential (AP), interspike interval (ISI) and the quiet interburst interval (IBI), along with the effects of 2.7 mT and 10 mT static magnetic fields, were identified and examined in the spontaneously active Br neuron of the subesophageal ganglion complex of the garden snail Helix pomatia by fractal analysis using Higuchi's fractal dimension (FD). The normalized mean of the empirical FD distributions of bursting activity of the Br neuron were formed under different experimental conditions: before (Control), during (MF), and after exposure to the static magnetic field (AMF). Using the fractal analysis method for the first time, a separation of the AP, ISI and IBI components was successfully achieved. Our results show that fractal analysis with deconvolution of the normalized mean of the empirical FD distributions into Gaussian functions is a useful tool for revealing the effects of magnetic fields on the complexity of neuronal bioelectric activity and its AP, ISI and IBI components.",
publisher = "Srpsko biološko društvo, Beograd, i dr.",
journal = "Archives of Biological Sciences",
title = "Using Higuchi’s fractal dimension in fine analysis of the effects of 2.7 mt and 10 mt static magnetic fields on the complex bursting activity of the snail br neuron",
pages = "572-563",
number = "2",
volume = "66",
doi = "10.2298/ABS1402563K"
}

Kesic, S., Nikolić, L. M., Janac, B.,& Spasić, S.. (2014). Using Higuchi’s fractal dimension in fine analysis of the effects of 2.7 mt and 10 mt static magnetic fields on the complex bursting activity of the snail br neuron. in Archives of Biological Sciences
Srpsko biološko društvo, Beograd, i dr.., 66(2), 563-572.
https://doi.org/10.2298/ABS1402563K

Kesic S, Nikolić LM, Janac B, Spasić S. Using Higuchi’s fractal dimension in fine analysis of the effects of 2.7 mt and 10 mt static magnetic fields on the complex bursting activity of the snail br neuron. in Archives of Biological Sciences. 2014;66(2):563-572.
doi:10.2298/ABS1402563K .

Kesic, S., Nikolić, Ljiljana M., Janac, Branka, Spasić, Slađana, "Using Higuchi’s fractal dimension in fine analysis of the effects of 2.7 mt and 10 mt static magnetic fields on the complex bursting activity of the snail br neuron" in Archives of Biological Sciences, 66, no. 2 (2014):563-572,
https://doi.org/10.2298/ABS1402563K . .