Topological Indices and QSPR Modeling of New Antiviral Drugs for Cancer Treatment

The threat of developing a cancer therapy has been there for the past two to three decades. Almost 10 million people worldwide are affected by this illness each year. Anticancer medications are those that are used to treat cancer, a malignant condition. These anticancer medications come in a variety of types, such as hormones, antimetabolites, and alkalizing agents. Numerous studies demonstrate a close relationship between the chemical structure of anticancer drugs and alkane characteristics including boiling, melting, and enthalpy. Some antiviral medications that are thought to hold promise for the treatment of cancer are examined in the planned research. For the chemical graphs of these medications, ST-polynomials based on status distance are computed. Numerous topological indices (TI) that depend on the status distance may be constructed by applying these polynomials. Additionally, the TIs are used in the creation of the QSPR models to estimate some of the physicochemical characteristics of these medications. Curve fitting is used to produce the QSPR research.

Automated summary

The threat of cancer therapy has been present for several decades, affecting nearly 10 million people worldwide each year. There are various types of anticancer medications, including hormones, antimetabolites, and alkalizing agents. This planned research examines the potential of antiviral medications for cancer treatment by analyzing their chemical structure and alkane characteristics. Additionally, topological indices based on status distance are computed using ST-polynomials, which are used to estimate the physicochemical properties of these medications through QSPR models.