Dynamic Simulation and Comparative Analysis of Cardiac Flow Using Hexa Graph Computational Structures

H. Aiswraya ¹, D. Sudha ^2*, S. Hameesha Sherin ², M. Dhanalakshmi ³, S. Santhiya ⁴

¹Department of Computer Applications, AJK College of Arts and Science, Tamil Nadu, India.
Email: aiswaryah@ajkcas.com

^2*Department of Mathematics, Jansons Institute of Technology, Tamil Nadu, India.
Email: sudhamidhun2011@gmail.com

²Department of ARVR, AJK College of Arts and Science, Tamil Nadu, India.
Email: hameeshashirins@ajkcas.com

³Department of Mathematics, Nehru Arts and Science College, Tamil Nadu, India.
Email: dhanakvct2011@gmail.com

⁴Department of Mathematics, AJK College of Arts and Science, Tamil Nadu, India.
Email: santhiyas@ajkcas.com

*Corresponding Author: D. Sudha, Department of Mathematics, Jansons Institute of Technology, Tamil Nadu, India. Email: sudhamidhun2011@gmail.com

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ABSTRACT

This paper introduces Right and Left Hexa Graph Topologies as structured models for representing human heart blood circulation. The heart is abstracted as a directed graph, where vertices denote key anatomical components and edges represent the directional flow of blood. The Right Hexa Graph models deoxygenated blood flow from the body to the lungs, while the Left Hexa Graph models oxygenated blood flow from the lungs to the body. Lower, upper, and boundary hexa subgraphs are constructed for each pathway, providing a systematic framework to visualize and analyze circulatory connectivity and flow within the human heart.

Keywords: Hexa graph through lungs to body, Hexa graph through body to lungs.

How to cite this article: Aiswraya H, Sudha D, Sherin SH, Dhanalakshmi M, Santhiya S. Dynamic simulation and comparative analysis of cardiac flow using hexa graph computational structures. Int J Drug Deliv Technol. 2026;16(3s): 832-835; DOI: 10.25258/ijddt.16.3s.100

Source of support: Nil.

Conflict of interest: None