A
Ariane Berdal
Researcher at University of Paris
Publications - 199
Citations - 6283
Ariane Berdal is an academic researcher from University of Paris. The author has contributed to research in topics: Ameloblast & Amelogenesis. The author has an hindex of 43, co-authored 192 publications receiving 5609 citations. Previous affiliations of Ariane Berdal include French Institute of Health and Medical Research & University of Tokyo.
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The use of mineral trioxide aggregate in one-visit apexification treatment: a prospective study
TL;DR: In this article, the authors assess the outcome of apexification using mineral trioxide aggregate (MTA) in one appointment with MTA by the same operator and assess the periapical index (PAI) and the size of the apical lesion.
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Biodentine Induces Immortalized Murine Pulp Cell Differentiation into Odontoblast-like Cells and Stimulates Biomineralization
Marjorie Zanini,Jean Michel Sautier,Jean Michel Sautier,Ariane Berdal,Ariane Berdal,Stéphane Simon +5 more
TL;DR: Because of its bioactivity, Biodentine can be considered as a suitable material for clinical indications of dentin-pulp complex regeneration, such as direct pulp capping.
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The genetic basis of inherited anomalies of the teeth: Part 1: Clinical and molecular aspects of non-syndromic dental disorders
TL;DR: The genetic basis of inherited anomalies describes the molecular bases and clinical features of inherited non-syndromic teeth disorders and focuses on genetic syndromes with dental involvement.
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Investigation of osteocalcin, osteonectin, and dentin sialophosphoprotein in developing human teeth.
Petros Papagerakis,Ariane Berdal,M. Mesbah,M Peuchmaur,Luc Malaval,J Nydegger,James P. Simmer,Mary MacDougall +7 more
TL;DR: It is demonstrated for the first time that both OC and ON are produced by human odontoblasts and determine the expression pattern of DSPP in human teeth, and suggest that OC and On move inside the canalicule via odontoblast cell processes becoming localized to specific extracellular compartments during dentin and enamel formation.
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Effects of strontium-doped bioactive glass on the differentiation of cultured osteogenic cells.
Juliane Isaac,J. Nohra,Jonathan Lao,Edouard Jallot,Jean-Marie Nedelec,Ariane Berdal,J.M. Sautier +6 more
TL;DR: Osteoblast differentiation of foetal mouse calvarial cells was enhanced in the presence of bioactive glass particles containing 5 wt.% strontium, suggesting B75-Sr5 may represent a promising bone-grafting material for bone regeneration procedures.