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Toxicological Evaluation of Acetylsalicylic Acid in Non-Target Organisms: Chronic Exposure on Mytilus galloprovincialis (Lamarck, 1819)

Frontiers in Physiology 2022 60 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Caterina Faggio Serena Savoca, Serena Savoca, Serena Savoca, Serena Savoca, Marco Albano, Marco Albano, Gioele Capillo, Federica Impellitteri, Federica Impellitteri, Federica Impellitteri, Federica Impellitteri, Federica Impellitteri, Maria Pagano, Maria Pagano, Serena Savoca, Caterina Faggio Gioele Capillo, Gioele Capillo, Marco Albano, Marco Albano, Serena Savoca, Serena Savoca, Serena Savoca, Serena Savoca, Caterina Faggio Caterina Faggio Federica Impellitteri, Federica Impellitteri, Federica Impellitteri, Caterina Faggio Federica Impellitteri, Gioele Capillo, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Marco Albano, Marco Albano, Marco Albano, Caterina Faggio Serena Savoca, Caterina Faggio Caterina Faggio Serena Savoca, Serena Savoca, Caterina Faggio Serena Savoca, Serena Savoca, Caterina Faggio Serena Savoca, Serena Savoca, Serena Savoca, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Serena Savoca, Serena Savoca, Serena Savoca, Serena Savoca, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Marco Albano, Gioele Capillo, Gioele Capillo, Caterina Faggio Caterina Faggio Caterina Faggio Serena Savoca, Caterina Faggio Caterina Faggio Gioele Capillo, Caterina Faggio Serena Savoca, Serena Savoca, Serena Savoca, Caterina Faggio Marco Albano, Caterina Faggio Marco Albano, Gioele Capillo, Marco Albano, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Gioele Capillo, Caterina Faggio Caterina Faggio Serena Savoca, Caterina Faggio Caterina Faggio Caterina Faggio Gioele Capillo, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Gioele Capillo, Gioele Capillo, Caterina Faggio Serena Savoca, Caterina Faggio Federica Impellitteri, Caterina Faggio Serena Savoca, Caterina Faggio Caterina Faggio Gioele Capillo, Serena Savoca, Serena Savoca, Caterina Faggio Gioele Capillo, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Gioele Capillo, Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio Caterina Faggio

Summary

Researchers exposed Mediterranean mussels to chronic low concentrations of acetylsalicylic acid (aspirin) and found that the pharmaceutical altered cellular volume regulation and caused tissue damage in gills and digestive glands. The study suggests that even common over-the-counter medications can pose risks to marine filter-feeding organisms that enter the human food chain.

Body Systems

Digestive Immune

Models

Invertebrate other

Pharmaceuticals are now considered to be established contaminants, and their presence in water poses a real risk not only to the marine ecosystem, as they may adversely affect non-target organisms that are exposed to them, but also indirectly to humans. This is particularly true for the model organism considered in this work, <i>Mytilus galloprovincialis</i> (Lamarck, 1819), a suspensivore and bioaccumulating organism that enters the human food chain. Among the most commonly used over-the-counter medicines, anti-inflammatory drugs certainly feature prominently, with acetylsalicylic acid (ASA) at the top. In this work, <i>M. galloprovincialis</i> specimens were exposed to two concentrations of ASA (10 and 100 μg/L) for 10 and 20 days to evaluate possible alterations in the decrease in regulatory volume (RVD) in digestive gland cells and cell viability of both these cells and hemocytes. In addition, the histopathological condition index of the gills and digestive gland was evaluated. The data obtained showed that chronic exposure to ASA did not alter the cell viability of hemocytes and digestive gland cells but alters the physiological mechanisms of volume regulation in the digestive gland and, in addition, a time-dose reaction to ASA in the gills and digestive gland showing numerous alterations such as lipofuscin deposits and hemocyte infiltration was found. These results confirm the potential toxicity to the marine biota, highlighting the necessity to deepen the knowledge regarding the link between over-the-counter pharmaceuticals and non-target organisms.

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