Neurobehavioral changes in mice offspring induced by prenatal exposure to acute toxicity of sodium selenite

Abstract: Selenium is an essential element with a narrow margin between beneficial and toxic effects. This study was aimed to determine the neurobehavioral changes resulted from the prenatal exposure of mice to high doses of sodium selenite during fetal and early postnatal development. Atomic absorption for monitoring the placental transfer of selenium to offspring was employed. The developmental observations as well as the behavioral tests, such as sensory motor reflexes, and learning and memory test in automatic refle… Show more

“…Thus, selenium at high doses is highly toxic to the tissue of embryos. Based on this study and other previous studies (Goldhaber, 2003;Miguel and Carmen, 2008;Ajarem et al, 2011), we expect that chronic supplementation of selenium can cause serious effects especially abnormal functioning of the nervous system. Therefore, when applied in the therapeutic approaches especially in gestation, selenium must be eventually monitored.…”

Impairment of active avoidance learning and sensory motor reflexes in mice offspring induced by perinatal acute toxic exposure to selenium

“…Thus, selenium at high doses is highly toxic to the tissue of embryos. Based on this study and other previous studies (Goldhaber, 2003;Miguel and Carmen, 2008;Ajarem et al, 2011), we expect that chronic supplementation of selenium can cause serious effects especially abnormal functioning of the nervous system. Therefore, when applied in the therapeutic approaches especially in gestation, selenium must be eventually monitored.…”

Impairment of active avoidance learning and sensory motor reflexes in mice offspring induced by perinatal acute toxic exposure to selenium

Dopaminergic dysregulation and impaired associative learning behavior in zebrafish during chronic dietary exposure to selenium

Autism, Chemicals, Probable Cause and Mitigation: A New Examination