In utero and lactational exposure to methylmercury elicits physical-chemical and morphological damages in the alveolar bone of offspring rats: The first toxicological findings

Methylmercury (MeHg) is the most common organic form of mercury (Hg) that humans are exposed and is considered an environmental pollutant. Several populations that live in endemic regions of MeHg exposure are subject to the toxicant for long periods, including pregnant women and children, causing da...

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Veröffentlicht in:Chemosphere (Oxford) 2022-12, Vol.308, p.136453-136453, Article 136453
Hauptverfasser: Chemelo, Victória Santos, Nascimento, Priscila Cunha, Bittencourt, Leonardo Oliveira, Souza-Monteiro, Deiweson, Balbinot, Gabriela Souza, Albuquerque, Alan Rodrigo Leal, Silva, Márcia Cristina Freitas, da Paz, Simone Patricia Aranha, Angélica, Rômulo Simões, Prado, Alejandro Ferraz, Martins, Manoela Domingues, Collares, Fabricio Mezzomo, Crespo-Lopez, Maria Elena, Lima, Rafael Rodrigues
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Sprache:eng
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Zusammenfassung:Methylmercury (MeHg) is the most common organic form of mercury (Hg) that humans are exposed and is considered an environmental pollutant. Several populations that live in endemic regions of MeHg exposure are subject to the toxicant for long periods, including pregnant women and children, causing damage to several organs during early periods of development. Alveolar bone is an essential structure for the oral cavity, responsible for supporting teeth and masticatory forces. However, evidence on the effects of MeHg on alveolar bone and the intrauterine and lactation period is lacking. Thus, this study aimed to investigate the effects of MeHg exposure during gestation and lactation on the developing alveolar bone of offspring rats after maternal exposure. Dams were exposed during 41 days of pregnancy and lactation, and the mandibles of the offspring were collected. The alveolar bone was analyzed by Fourier Transform Infrared Spectroscopy to evaluate the physicochemical composition; by Scanning Electron Microscopy for ultrastructural evaluation; by histopathological, histochemical, and morphometric for tissue analyses. In addition, bone quality was assessed by X-ray microtomography. MeHg exposure altered the mineral composition and caused histological damage associated with a lower quantity and thickness of bone trabeculae, as well as reduced osteocyte density and collagen fiber content. A reduction in trabecular thickness and bone volume and an increase in trabecular spaces were observed and were associated with anatomical compromise of the vertical bone dimensions. Thus, the results suggest that the developing alveolar bone is susceptible to the toxic effects of MeHg when organisms are exposed during intrauterine and lactation periods. From a translational perspective, these changes in the alveolar bone can help us understand possible abnormalities induced by toxic metals and highlight the need for care for structures other than those already seen as targets for damage triggered by environmental MeHg exposure. [Display omitted] •Indirect exposure to methylmercury (MeHg) promotes damage to the alveolar bone.•Levels of total Hg in the blood are associated with alveolar bone damages.•Maternal exposure to MeHg affects physicochemical and mineral components of the offspring’s alveolar bone.•Alveolar bone microarchitecture suffers alterations after MeHg exposure and is associated with anatomical compromise.•Pre and postnatal exposure to MeHg are associated with ce
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2022.136453