Pattern selection in coupled neurons under high-low frequency electric field

Takembo, Clovis Ntahkie; Sone, Michael Ekonde

doi:10.1016/j.heliyon.2021.e06132

Cited by 7 publications

(1 citation statement)

References 26 publications

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“…Indeed, external electromagnetic radiation can change the excitability of cardiac tissue and neuronal networks. Many schemes have been proposed to eliminate abnormal rhythms by controlling electrical activities [27] , [28] , [29] , [30] . Amongst the various methods produced, direct current stimulation (DCS) with high amplitude has gained prominence [30] .…”

Section: Introductionmentioning

confidence: 99%

Controlling discharge mode in electrical activities of myocardial cell using mixed frequencies magnetic radiation

Takembo

Kofané

2022

Heliyon

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Section: Introductionmentioning

confidence: 99%

Controlling discharge mode in electrical activities of myocardial cell using mixed frequencies magnetic radiation

Takembo

Kofané

2022

Heliyon

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Coexisting Behavior and Status Transition of the Hodgkin-Huxley Cardiac Purkinje Fiber Model Under External AC Injection

Zhang

Wang

et al. 2023

Braz J Phys

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The membrane current $$I_m$$ I m of the Hodgkin-Huxley (HH) cardiac Purkinje fiber (CPF) model is usually calculated as direct current (DC). In this paper, a conventional alternating current (AC) is used, namely $$I_{AC} = \textrm{Asin}(2 \pi ft)$$ I AC = Asin ( 2 π f t ) , as the impressed injection. Dynamic characters of the model with different AC parameters and various initial conditions are observed through phase plane orbits, waveforms, bifurcation diagrams, and Lyapunov exponent spectra, which reveal multiple coexisting membrane action potential patterns, corresponding to the coexisting attractors of the same or different periods in the phase diagram. Meanwhile, the model undergoes period, quasi-period and local forward or inverse period-doubling bifurcations with changes in amplitude A or frequency f, which further proves the complex nonlinear property of the AC-injected model. In addition, by changing the external current $$I_m$$ I m , the sodium-ion and potassium-ion equilibrium potentials, i.e. $$E_{Na}$$ E Na and $$E_{K}$$ E K , respectively, the regularity of the CPF heartbeat frequency is observed. The state transformations of CPF are found between normal, abnormal and sudden cardiac arrest, and the method adjusting from the dangerous state to the normal heartbeat frequency range is investigated. This study may provide a reference for exploring the evolution of nonlinear dynamics in HH CPF model and protecting the health of life and heart.

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Control the collective behaviors in a functional neural network

Yao

2021

Chaos, Solitons & Fractals

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Pattern selection in coupled neurons under high-low frequency electric field

Cited by 7 publications

References 26 publications

Controlling discharge mode in electrical activities of myocardial cell using mixed frequencies magnetic radiation

Controlling discharge mode in electrical activities of myocardial cell using mixed frequencies magnetic radiation

Coexisting Behavior and Status Transition of the Hodgkin-Huxley Cardiac Purkinje Fiber Model Under External AC Injection

Control the collective behaviors in a functional neural network

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