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Effect of pre- and post-natal exposure to fluoride on fluorosis indicators in offspring of rats
(Elsevier, 2014)
Controversy exists over the maternal-fetal passage of fluoride (F-). This work sought to explore different aspects of F- metabolism during pregnancy and lactation in mothers and offspring. The specific aim was to study F- ...
Increased Expression of Dentin Matrix Proteins and Connexin43 is Associated to Reactionary Dentin Formation in Fluoride Exposed Rats
(2020)
Excessive fluoride (F-) intake may increase the body burden of the ion and induce acute and chronic F- toxicity, osteo-dental fluorosis. Connexin 43, (Cx43), the most abundant member of the connexin family in the dental ...
Effect of pre- and post-natal exposure to fluoride on fluorosis indicators in offspring of rats
(2016)
Controversy exists over the maternal–fetal passage of fluoride (F-). This work
sought to explore different aspects of F-metabolism during pregnancy and lactation in
mothers and offspring. The specific aim was to study ...
Fluoride increases mandibular bone volume and the number of osteoblasts during pre-eruptive stage
(2016)
Low fluoride (F-) doses stimulate osteoblasts differentiation and promote organic matrix synthesis. There is not much information about the effects of fluoride exposure during fetal and early post-natal period on the ...
La ingesta de NaF durante la lactancia afecta el crecimiento mandibular de las crías
(2014)
Existe poca información sobre el desarrollo de fluorosis durante el periodo fetal y el periodo postnatal inicial. OBJETIVO: estudiar la relación entre el contenido gástrico de F- y parámetros morfométricos de crecimiento ...
Oral health of a school community in Córdoba Capital in 2019 and 2022
(2022)
Objectives:Analyze the oral health situation of schoolchildren from a vulnerable educational community in the city of Córdoba, in the periods 2019 and 2022.Materials and methods:An analytical cross-sectional study of the ...
Morphological and functional changes in rats incisor triggered by chronic exposure to fluoride
(Elsevier, 2014)
It is well known that excessive intake of fluoride (F-) during dentinogenesis causes dental fluorosis. However the molecular mechanism underlying fluorosis remains unclear. Connexins (Cxs) are important to control growth ...
Connexin 43 induces odontoblast differentiation in rat incisors with dental fluorosis
(2016)
Molecules of intercellular communication, such as connexin 43 (Cx43), are important during dentinogenesis since they control cellular growth and differentiation. Excessive ingestion of fluoride (F-) during the phase of ...