Structures of Nano-Topologies Via Graphs in the Human Double Circulation System

Introduction: The key theme of present research work is to propose an initial left (resp. right) neighbourhood system for an ordering on nano-topological spaces. Based on these neighbourhoods, we explain how the connection between nano-topological spaces and digraph theory may be used in the study of human double circulation system.

Objectives: The“most current findings and medical application methods utilize graph theory to demonstrate certain complicated structures with advanced application trends. The basis of this work is the creation of a“nano-topological structures for the supremacy position of vertices of plain”digraphs. We use digraph for derive the nano-topologies in many scientific and medical models to ensure functionality.

 Methods: To construct a directed graph for the human double circulation system. In addition we derive the nano-topologies by using initial left (resp. right) neighbourhoods for certain probable sub-graphs and also verified the comparison between these two types of neighbourhoods

Results: In this paper we have derived certain nano-topological properties by creating initial left (resp. right) neighbourhoods and also we have identified the union and intersection of initial neighbourhoods might help us to ensure the cause of lung and heart failure.

Conclusions: The findings of the digraph application approaches that we acquired are really helpful to ensure the functionality of double circulation system in the human body.