Simulating the Efficacy of Natural Agents in Chemoprevention for Waterborne Carcinogens and Genomic Stability Using the ChemoprevWaterNet Algorithm

Abstract

Carcinogens that affect water, especially those from industrial and agricultural sources, are exceedingly dangerous for both water life and humans. Treatment systems in place for water treatment can reduce the amount of pollutants present, but they do not prevent the long-term genetic damage waterborne carcinogens can inflict. This research examines the ability of some natural agents, which include plant extracts and other bioactive substances, to counteract the waterborne carcinogens. This research also aims the study's goal in conjunction with the ChemoprevWaterNet algorithm, which is a computation model that simulates the effects of natural chemo preventive agents” on the waterborne carcinogenesis. The study demonstrates that some natural products can greatly augment the DNA repair processes, lowering the mutations and the damage to the genetic structure that occur during exposure to waterborne carcinogens. The ChemoprevWaterNet algorithm can show the potential use of natural agents as adjuncts and preventive strategies in the protecting of aquatic organisms, and, potentially, humans, from environmental carcinogens