Aim: To examine the calcium, potassium and sodium molecules film potential to redirect impacts in atrial nodes Electrocardiogram (ECG) age for the customary and strange condition using Rungekutta strategy. Materials and Methods: In this research human atrial cells are based on Seemann et al. method can be used to describe the action potential model of sinoatrial nodes. Sample size can be calculated as 70 and the G power is 80%. Numerical conditions of calcium, potassium and sodium channels can be done by the RungeKutta strategy. Results: The typical film capability of calcium is -30 mV, but for the different parameters expanding of 100%, half and 25%, the layer possibilities are -52 mV, -26 mV and -42 mV and afterward the diminishing of 100% and half calcium levels doesn’t frame single ECG waveform, diminishing of 25%, the layer potential is -45 mV. The normal film ability of potassium is 3.3 mV, but for the different parameters growing of 100%, half and 25%, the layer prospects are 6.4 mV, 4.8 mV and 4 mV and subsequently the decreasing of 100% potassium levels doesn’t outline single ECG waveform, reducing of half and 25%, the layer possibilities are 4 mV and 3 mV. The regular film limit of sodium is 81.2 mV, but for the different parameters stretching out of 100%, half and 25%, the layer possibilities are 162.4 mV, 121.8 mV and 101.5 mV and from there on the diminishing of 100% sodium levels doesn’t diagram single ECG waveform, diminishing of half and 25%, the layer prospects are 40 mV and 37.7 mV. By contrasting these qualities there is a distinction in pacemaking action and causes sporadic heartbeat and prolongation happens. In typical Action Potential, the withdrawal will happen routinely. In unusual AP, the conduction of electrical excitation will contrast and make sporadic heart work cause arrhythmia. Later on, a superior comprehension of the cell model can be utilized to identify the medication that assists with making a typical heartbeat.

1.
Ainseba
,
Bedr’eddine
,
Mostafa
Bendahmane
, and
Ricardo
Ruiz-Baier
.
2012
. “
Analysis of an Optimal Control Problem for the Tridomain Model in Cardiac Electrophysiology
.”
Journal of Mathematical Analysis and Applications.
.
2.
Boyett
,
M. R.
,
H.
Honjo
, and
I.
Kodama
.
2000
. “
The Sinoatrial Node, a Heterogeneous Pacemaker Structure
.”
Cardiovascular Research
47
(
4
):
658
87
.
3.
Dvir
,
Hila
, and
Sharon
Zlochiver
.
2015
. “
Interbeat Interval Modulation in the Sinoatrial Node as a Result of Membrane Current Stochasticity-a Theoretical and Numerical Study
.”
Biophysical Journal
108
(
5
):
1281
92
.
4.
El Chemaly
,
Antoun
,
Christophe
Magaud
,
Sylvie
Patri
,
Christophe
Jayle
,
Romain
Guinamard
, and
Patrick
Bois
.
2007
. “
The Heart Rate-Lowering Agent Ivabradine Inhibits the Pacemaker Current I(f) in Human Atrial Myocytes
.”
Journal of Cardiovascular Electrophysiology
18
(
11
):
1190
96
.
5.
Fabbri
,
Alan
,
Matteo
Fantini
,
Ronald
Wilders
, and
Stefano
Severi
.
2017
. “
Computational Analysis of the Human Sinus Node Action Potential: Model Development and Effects of Mutations
.”
The Journal of Physiology
595
(
7
):
2365
96
.
6.
Gurukumaresan
,
D.
,
Duraisamy
,
C.
,
2021
.
Optimal solution of fuzzy transportation problem using octagonal fuzzy numbers
.
COMPUTER SYSTEMS SCIENCE AND ENGINEERING
,
37
(
3
), pp.
415
421
. DOI:
7.
Fang
,
Yi
,
Keming
Li
, and
Xiaodong
Huang
.
2020
. “
Role of Intracellular Calcium Cycling in Sinoatrial Node Myocyte Phase-Locking
.”
AIP Advances.
.
8.
Garny
,
A.
,
P. J.
Noble
,
P.
Kohl
, and
D.
Noble
.
2002
. “
Comparative Study of Rabbit Sino-Atrial Node Cell Models
.”
Chaos, Solitons& Fractals.
.
9.
Gratz
,
Daniel
,
Birce
Onal
,
Alyssa
Dalic
, and
Thomas J.
Hund
.
2018
. “
Synchronization of Pacemaking in the Sinoatrial Node: A Mathematical Modeling Study
.”
Frontiers in Physics.
.
10.
Inada
,
Shin
,
Henggui
Zhang
,
James O.
Tellez
,
Nitaro
Shibata
,
Kazuo
Nakazawa
,
Kaichiro
Kamiya
,
Itsuo
Kodama
, et al.
2014
.“
Importance of Gradients in Membrane Properties and Electrical Coupling in Sinoatrial Node Pacing
.”
PLoS ONE.
.
11.
Liu
,
Jie
,
Penelope J.
Noble
,
Guosheng
Xiao
,
Mohamed
Abdelrahman
,
Halina
Dobrzynski
,
Mark R.
Boyett
,
Ming
Lei
, and
Denis
Noble
.
2008
. “
Role of Pacemaking Current in Cardiac Nodes: Insights from a Comparative Study of Sinoatrial Node and Atrioventricular Node
.”
Progress in Biophysics and Molecular Biology
96
(
1-3
):
294
304
.
12.
Martis
,
Roshan
Joy
,
U.
RajendraAcharya
,
K. M.
Mandana
,
A. K.
Ray
, and
Chandan
Chakraborty
.
2012
. “
Application of Principal Component Analysis to ECG Signals for Automated Diagnosis of Cardiac Health
.”
Expert Systems with Applications.
.
13.
Maltsev
,
Anna
V.
,
Victor A.
Maltsev
,
Maxim
Mikheev
,
Larissa A.
Maltseva
,
Syevda G.
Sirenko
,
Edward G.
Lakatta
, and
Michael D.
Stern
.
2011
. “
Synchronization of Stochastic Ca2 Release Units Creates a Rhythmic Ca2 Clock in Cardiac Pacemaker Cells
.”
Biophysical Journal.
.
14.
Milanesi
,
Raffaella
,
Annalisa
Bucchi
, and
Mirko
Baruscotti
.
2015
. “
The Genetic Basis for Inherited Forms of Sinoatrial Dysfunction and Atrioventricular Node Dysfunction
.”
Journal of Interventional Cardiac Electrophysiology.
.
15.
Sahana
,
S.
,
Babu
,
A.K.A.
and
Kumaravelan
,
G.
,
2021
.
Design and development of context-Aware and context-Adaptable system with session handling mechanism for ubiquitous computing
.
Malaya Journal of Matematik (MJM)
,
9
(
1
, 2021), pp.
83
88
.
16.
Pohl
,
A.
,
A.
Wachter
,
N.
Hatam
, and
S.
Leonhardt
.
2016
. “
A Computational Model of a Human Single Sinoatrial Node Cell
.”
Biomedical Physics & Engineering Express.
.
17.
Quarteroni
,
Alfio
,
Toni
Lassila
,
Simone
Rossi
, and
Ricardo
Ruiz-Baier
.
2017
. “
Integrated Heart—Coupling Multiscale and Multiphysics Models for the Simulation of the Cardiac Function
.”
Computer Methods in Applied Mechanics and Engineering.
.
18.
Rickert
,
Christian
, and
Catherine
Proenza
.
2017
. “
ParamAP: Standardized Parameterization of Sinoatrial Node Myocyte Action Potentials
.”
Biophysical Journal
113
(
4
):
765
69
.
19.
Seemann
,
Gunnar
,
Christine
Höper
,
Frank B.
Sachse
,
Olaf
Dössel
,
Arun V.
Holden
, and
Henggui
Zhang
.
2006
. “
Heterogeneous Three-Dimensional Anatomical and Electrophysiological Model of Human Atria
.”
Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences
364
(
1843
):
1465
81
.
20.
N.
Sabarirajan
,
S.
Ravichandran
,
G.M.
Moorthy
,
S. Dinesh
kumar
, ‘
Novel study on improvement of plastics properties by blending of waste micro plastics into ABS plastics
’’
chemosphere
, vol.
303
(
2022
),
134997
, p.
1
13
.
21.
N.
Sabarirajan
, ‘
Synthesis and optimization of AA7155-Zirconiam Carbide(Zrc) Composites Machining Parameters
’,
Journal of New Materials for Electrochemical Systems
, Vol.
24
, Issue
1
, pp.
34
37
,
2021
.
22.
Milindshivaji
Rohokale
,
Dharmesh
Dhabliya
,
Vijayan
V.
and
Senthilkumar
N.
, ‘
A novel two-step co-precipitation approach of CuS/NiMn2O4 heterostructurednanocatalyst for enhanced visible light driven photocatalytic activity via efficient photo-induced
’,
Physica B: Condensed Matter
,
Elsevier Publisher
, Vol.
610
, Issue
6
, June
2021
, pp.
1
7
.
23.
S.
Arunkumar
,
R.
Saravanan
and
V.
Dhinakaran
, ‘
Experimental Investigation on material characterization of zirconia reinforced Alumina ceramic composites via powder forming process
’,
AIP Conference Proceedings
2283
(
1
),
020124
, Oct
2020
.
24.
D.B.
Subramanian
,
R.
Saravanan
and
V.
Dhinakaran
, ‘
Experimental study about flash and fire point comparison on three combinationa of waste tyre oil with diesel for alternate properties identification
’,
AIP Conference Proceedings
2283
(
1
),
020122
, Oct
2020
.
25.
Unudurti
,
Sathya
D.
,
Roseanne M.
Wolf
, and
Thomas J.
Hund
.
2014
. “
Role of Sinoatrial Node Architecture in Maintaining a Balanced Source-Sink Relationship and Synchronous Cardiac Pacemaking
.”
Frontiers in Physiology
5
(November):
446
.
26.
Verkerk
,
Arie
O.
, and
Ronald
Wilders
.
2010
. “
Relative Importance of Funny Current in Human versus Rabbit Sinoatrial Node
.”
Journal of Molecular and Cellular Cardiology
27.
S. Uma
Maheswari
., “
Coastal pollution analysis for environmental health and ecological safety using deep learning technique
,”
Advances in Engineering Software
, vol.
179
, p.
103441
, May
2023
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