Affiliation:
1. School of Mathematics and Statistics Pingdingshan University Pingdingshan China
2. School of Mathematics and Statistics Henan International Joint Laboratory for Multidimensional Topology and Carcinogenic Characteristics Analysis of Atmospheric Particulate Matter PM2.5 Pingdingshan China
3. Department of Mathematics School of Natural Sciences (SNS), National University of Sciences and Technology (NUST) Islamabad Pakistan
4. Department of Mathematics Air University Multan Campus Multan Pakistan
5. University of Engineering and Technology Lahore RCET Lahore Pakistan
Abstract
AbstractAntiemetic drugs are prescribed to help with nausea and vomiting, which are side effects of other drugs. Topological indices/Entropies are used in QSPR research to predict the bioactivity of chemical substances. This paper proposes predicting physical properties using degree‐based entropies. A Maple‐based program is being developed to make the computation of degree‐based entropy easier. A QSPR analysis is an effective statistical tool for determining pharmacological activity or binding mode for various receptors. Using a linear regression model, we found that the Augmented Zagreb entropy helps predict Complexity and the first Zagreb entropy and Balaban entropy help predict Heavy Atom Count, Topological Polar Surface Area, Monoisotopic Mass and Molecular Weight. In multiple linear regression, the results exhibit that the , , , , and entropies statistically significantly predict the Heavy Atom Count, Topological Polar Surface Area, Complexity, Monoisotopic Mass & Molecular Weight. This analysis may help chemists and other working in the pharmaceutical industry predict the properties of antiemetic drugs without experimenting.
Subject
Physical and Theoretical Chemistry,Condensed Matter Physics,Atomic and Molecular Physics, and Optics
Cited by
10 articles.
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