The SARS-CoV-2 virus (termed COVID-19) was responsible for over 34 million global deaths. Although the COVID-19 pandemic has subsided, infection by emerging mutant variants of SARS-CoV-2 poses a continuing threat to public health. COVID-19 infection has been associated with the development of cytokine storm syndrome, hypercoagulability, immunological dysregulation and direct viral invasion of organs, and the long-term consequences for the health of COVID-19 survivors are currently unknown. Our research focuses on the possible mutagenic aspects of infection by COVID-19 and measures their harmful effects on DNA composition. DNA damage was investigated, using the comet assay method, during two periods: in the epidemic peak of COVID-19 and during the post-COVID-19 period, both in patients infected with COVID-19 and in those with influenza. During the epidemic peak, the levels of DNA damage ranged from the highest to the lowest levels in the following groups, respectively: intubated-ICU, non-intubated-ICU, non-ICU, and influenza, with a discernible increase in DNA damage in ICU-treated patients. The levels of DNA damage in the post-COVID-19 period were significantly lower compared to those in the epidemic peak period but there was still a discernible increase in DNA damage in the ICU group. Our results indicate that levels of DNA damage may be an effective indicator in prognostic decision-making and may therefore help to reduce mortality. Given that DNA damage and impaired repair processes can contribute to chronic diseases like diabetes, cancer, and neurodegenerative conditions, it will be crucial to investigate potential similar effects in patients with COVID-19.
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