Publications

  • Shah SR. Achievement of Pentoxifylline for Blood Flow through Stenosed Artery. Journal of Biomimetics, Biomaterials and Tissue Engineering, 2012; 13:81-89.

 

  • Shah SR. Performance Study on Capillary-Tissue Diffusion Phenomena for Blood Flow through Stenosed Blood Vessels. American journal of pharmtech research, 2012; 2(2):695-705.

 

  • Shah SR.A biomechanical approach for the study of deformation of red cells in narrow capillaries. IJE: Transaction A: Basics, 2012; 25(4):303-313.

 

  • Shah SR. A biomechanical approach for the study of Two-phase blood flow through stenosed artery, International Journal of research studies inbiosciences,2013; 1(2): 24-32.

 

  • Shah SR. An innovative study for non-Newtonian behavior of blood flow in stenosed artery using Herschel-Bulkely flud, International Journal of biosiences and biotechnology, 2013; 5(5):233-240.

 

  • Shah SR. An innovative solution for the problem of blood flow through stenosed artery using generalized bingham plastic fluid model, International Journal of research in applied and natural  social sciences, 2013;1(3):97-140.

 

  • Shah SR. Effects of antiplatelet drugs on blood flow through stenosed
  • blood vessels. Journal of Biomimetics, Biomaterials and Tissue Engineering, 2013;18:21-27.

 

  • Shah SR.  A Mathematical Model for the analysis of blood flow through diseased blood vessels under the influence of porous parameter. Journal of Biosciences and Technology, 2013;4(6):534-541.

 

  • Siddiqui SU, Shah SR, Geeta. Mathematical Modelling of blood flow through catheterized artery under the influence of body acceleration with slip velocity.Application and applied Mathematics An international journal,2013; 8(2):481-494.

 

  • Shah SR. Performance modeling and analysis of magnetic field on nutritional transport capillary tissue system using modified Herschel-Bulkely fluid.International Journal of Advanced research in physical sciences, 2014;1(1):33-41.

 

  • Siddiqui SU, Shah SR, Geeta. Effect of body acceleration and slip velocity on the pulsatile flow of casson fluid through stenosed artery.Advance in applied science research, 2014; 5(3): 231-225.

 

  • Shah SR. Effect of clopidogrel on blood flow through stenosed artery under diseased condition. International Journal of Experimental Pharmacology, 2014;4(1):887-893 .

 

  • Siddiqui SU, Shah SR, Geeta. A Mathematical Model for two layered pulsatile blood flow through stenosed arteries. E-Journal of science and Technology,2015;109 (11): 27-41.

 

  • Siddiqui SU, Shah SR, Geeta. A Biomechanical approach to the effect of body acceleration through stenotic artery. Applied Mathematics and Computation, 2015;109(1):27-41.

 

  • Shah SR.  A mathematical study of blood flow through stenosed Artery. International journal  of Universal Science and Engineering, 2015;1(1):26-37.

 

  • Shah SR, Siddiqui SU, Singh A. Mathematical Modelling and Analysis of Blood Flow through  Diseased Blood Vessels, International Journal of Engineering and Management Research, 2015;5(6): 366-372.

 

  • Shah SR. A mathematical study of blood flow through radially nonsymmetric
  • multiple stenosed arteries under the influence of magnetic field.International Journal of Advanced Research in Biological Sciences, 2015; 2(12):379-386.

 

  • Shah SR. Mathematical Study of Blood Flow through Atherosclerotic Artery in the Presence of Porous Effect. International Journal of Modern Sciences and Engineering Technology, 2015;2(12):12-20.

 

  • Shah SR. A study of blood flow through multiple atherosclerotic arteries. International Journal for Mathematics. 2015;1(12):1-6.

 

  • Shah SR, Siddiqui SU, Singh A. Effects of inclined multistenoses arteries on blood flow characteristics using bingham plastic fluid. International Journal for Mathematics, 2015;1(12):7-14.

 

  • Siddiqui SU, Shah SR, Geeta. A Computational Analysis of a Two-Fluid non-linear mathematical model of pulsatile blood flow through Constricted Artery. E-Journal of science and Technology,2015;10(4):65-78.

 

  • Shah SR, Siddiqui SU, Singh A. Performance of blood flow through two phase stenosed artery using Herschel-Bulkley model.International Journal of Applied And Pure Science and Agriculture, 2016;2(2):228-240.

 

  • Shah SR, Siddiqui SU, Singh A. Mathematical Modeling and Numerical Simulation of Blood Flow through Tapered Artery. International Journal of Innovative Science, Engineering & Technology,2016;3(2):710-717.

 

  •  Shah SR,  Siddiqui SU,  Singh A. Mathematical Modeling of peristaltic blood flow through a vertical blood vessel using prandtl fluid model. International Journal of Mathematics and computer research,,2016; 4(9): 710-717.

 

  •  Shah SR, Siddiqui SU. A Physiologic Model for the problem of blood flow through        Diseases blood vessels. International journal of advances in Applied Sciences, 2016;5(2):  58-64. 

 

  •  Shah SR, Siddiqui SU, Singh A. A Mathematical Model to study the similarities of blood fluid models through inclined multi-stenosed artery. International Journal of Engineering Research and Modern Education, 2017; 2 (1) :108-115.

 

  • Shah SR, Singh A and Anamika. Bio-Computational analysis of blood flow through two phase artery. International Journal of Engineering Science and Computing, 2017; 7(6): 13393-13401

 

  •  Shah SR and Anamika. A mathematical model of blood flow through diseased blood vessel. International Journal of Emerging Trends and Technology in computer Science. 2017; 6(3):282-286.

 

  • Shah SR and Anamika. Mathematical and Computational study of blood flow through diseased artery. International Journal of Computer Science, 2017; 5(6):1-6.

 

  •  Shah SR, Singh A and Anamika. Mathematical Modelling Of Blood Flow through Three Layered Stenosed Artery. International Journal for Research in Applied Science and Engineering Technology. 2017; 5(6):1-6.

 

  • Shah SR, Kumar R and Anamika. Mathematical analysis of blood flow through tapered stenosed artery with the suspension of nanoparticles International Journal of Development Research. 2017; 5(6):1-6.

 

  • Shah SR, Kumar R and Anamika. Mathematical modeling of blood flow through tapered stenosed artery with the suspension of nanoparticles using jeffrey fluid model. Iinternational journal of development research. 2017; 7(6):13494-13500.

 

  • Shah SR, Kumar R. Study of blood flow with suspension of nanoparticles through tapered stenosed artery. Global Journal of Pure and Applied Mathematics, 2017; 13(10): 7387-7399.

 

  • Shah SR, Kumar R. A mathematical approach to study the blood flow through tapered stenosed artery with the suspension of nanoparticles. Destech Transactions on Engineering and Technology Research, 2017; 01: 1-6.

Dr. Sapna Ratan Shah
Associate Professor
Room No.34,
School of Computational and Integrative Sciences,
Jawaharlal Nehru University,
New Delhi-110067, INDIA

Mobile : 91 8725441044
Email: sapnarshah@mail.jnu.ac.in | sapna1980jan@rediffmail.com

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