Chlorine Dioxide: Friend or Foe for Cell Biomolecules? A Chemical Approach

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Abstract

This review examines the role of chlorine dioxide (ClO2) on inorganic compounds and cell biomolecules. As a disinfectant also present in drinking water, ClO2 helps to destroy bacteria, viruses, and some parasites. The Environmental Protection Agency EPA regulates the maximum concentration of chlorine dioxide in drinking water to be no more than 0.8 ppm. In any case, human consumption must be strictly regulated since, given its highly reactive nature, it can react with and oxidize many of the inorganic compounds found in natural waters. Simultaneously, chlorine dioxide reacts with natural organic matter in water, including humic and fulvic acids, forming oxidized organic compounds such as aldehydes and carboxylic acids, and rapidly oxidizes phenolic compounds, amines, amino acids, peptides, and proteins, as well as the nicotinamide adenine dinucleotide NADH, responsible for electron and proton exchange and energy production in all cells. The influence of ClO2 on biomolecules is derived from its interference with redox processes, modifying the electrochemical balances in mitochondrial and cell membranes. This discourages its use on an individual basis and without specialized monitoring by health professionals.

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Andrés, C. M. C., Lastra, J. M. P. de la, Andrés Juan, C., Plou, F. J., & Pérez-Lebeña, E. (2022, December 1). Chlorine Dioxide: Friend or Foe for Cell Biomolecules? A Chemical Approach. International Journal of Molecular Sciences. MDPI. https://doi.org/10.3390/ijms232415660

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