Magnesium, pH regulation and modulation by mouse ameloblasts exposed to fluoride

ALJJ Bronckers, DM Lyaruu - Bone, 2017 - Elsevier
Supraoptimal intake of fluoride (F) induces structural defects in forming enamel, dentin and
bone and increases the risk of bone fractures. In comparison to bone and dentin is formation …
被引用次数:13 相关文章

Magnesium, pH regulation and modulation by mouse ameloblasts exposed to fluoride.

AL Bronckers, DM Lyaruu - Bone, 2016 - europepmc.org
Supraoptimal intake of fluoride (F) induces structural defects in forming enamel, dentin and
bone and increases the risk of bone fractures. In comparison to bone and dentin is formation …

Magnesium, pH regulation and modulation by mouse ameloblasts exposed to fluoride

ALJJ Bronckers, DM Lyaruu - Bone, 2017 - infona.pl
Supraoptimal intake of fluoride (F) induces structural defects in forming enamel, dentin and
bone and increases the risk of bone fractures. In comparison to bone and dentin is formation …

Magnesium, pH regulation and modulation by mouse ameloblasts exposed to fluoride

A Bronckers, DM Lyaruu - Bone, 2017 - dare.uva.nl
Supraoptimal intake of fluoride (F) induces structural defects in forming enamel, dentin and
bone and increases the risk of bone fractures. In comparison to bone and dentin is formation …

Magnesium, pH regulation and modulation by mouse ameloblasts exposed to fluoride

AL Bronckers, DM Lyaruu - Bone, 2017 - pubmed.ncbi.nlm.nih.gov
Supraoptimal intake of fluoride (F) induces structural defects in forming enamel, dentin and
bone and increases the risk of bone fractures. In comparison to bone and dentin is formation …

Magnesium, pH regulation and modulation by mouse ameloblasts exposed to fluoride

A Bronckers, DM Lyaruu - Bone, 2017 - research.vu.nl
Supraoptimal intake of fluoride (F) induces structural defects in forming enamel, dentin and
bone and increases the risk of bone fractures. In comparison to bone and dentin is formation …