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    Chaos of calcium diffusion in Parkinson's infectious disease model and treatment mechanism via Hilfer fractional deriv...

    		 
     
         
    ISSN: 2791 - 8564

    Publisher: author   

Chaos of calcium diffusion in Parkinson's infectious disease model and treatment mechanism via Hilfer fractional deriv...
Indexed in Mathematics and Statistics
ARTICLE-FACTOR
 1.3
Article Basics Score: 3
Article Transparency Score: 3
Article Operation Score: 2
Article Articles Score: 2
Article Accessibility Score: 3
Article Problems
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article Flaws Reduces Credit

SUBMIT PAPER ASK QUESTION
International Category Code (ICC):
ICC-1102
Publisher: Mehmet Yavuz
Authors: Hardik Joshi, Brajesh Kumar Jha
International Journal Address (IAA):
IAA.ZONE/2791123878564
eISSN : 2791 - 8564 VALID ISSN Validator
Abstract Calcium is a vital element in our body and plays a crucial role to moderate the calcium signalling process. Calcium-dependent protein and flux through the sodium-calcium exchanger are also involved in signalling process to perform and execute necessary cellular activities. The loss or alteration in this cellular activity starts the early progress of Parkinson’s disease. A mathematical calcium model is developed in the form of the Hilfer fractional reaction-diffusion equation to examine the calcium diffusion in the cells. The effect of calcium-dependent protein and flux through the sodium-calcium exchanger is incorporated in the model. The solution of the Hilfer fractional calcium model is obtained by using the Sumudu transform technique in the form of the Wright function and Mittag-Leffler function. The graphical results are obtained for the different amounts of proteins, presence, and absence of sodium-calcium exchanger, and various ...
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