Ronald Verbeeck scite author profile

The combination of self-setting and biocompatibility makes calcium phosphate cements potentially useful materials for a variety of dental applications. The objective of this study was to investigate the setting and hardening mechanisms of a cement-type reaction leading to the formation of calcium-deficient hydroxyapatite at low temperature. Reactants used were alpha-tricalcium phosphate containing 17 wt% beta-tricalcium phosphate, and 2 wt% of precipitated hydroxyapatite as solid phase and an aqueous solution 2.5 wt% of disodium hydrogen phosphate as liquid phase. The transformation of the mixture was stopped at selected times by a freeze-drying techniques, so that the cement properties at various stages could be studied by means of x-ray diffraction, infrared spectroscopy, and scanning electron microscopy. Also, the compressive strength of the cement was measured as a function of time. The results showed that: (1) the cement setting was the result of the alpha-tricalcium phosphate hydrolysis, giving as a product calcium-deficient hydroxyapatite, while beta-tricalcium phosphate did not participate in the reaction; (2) the extent of conversion of alpha-TCP was nearly 80% after 24 hr; (3) both the extent of conversion and the compressive strength increased initially linearly with time, subsequently reaching a saturation level, with a strong correlation observed between them, indicating that the microstructural changes taking place as the setting reaction proceeded were responsible for the mechanical behavior of the cement; and (4) the microstructure of the set cement consisted of clusters of big plates with radial or parallel orientations in a matrix of small plate-like crystals.

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Synthesis and thermal properties of poly(ethylene glycol)-poly(ϵ-caprolactone) copolymers

Bogdanov

Vidts

Buicke

et al. 1998

Polymer

196

157

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Isolation, proliferation and differentiation of osteoblastic cells to study cell/biomaterial interactions: comparison of different isolation techniques and source

et al. 2004

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Biodentine™ material characteristics and clinical applications: a review of the literature

Rajasekharan

Martens

Cauwels

et al. 2014

Eur Arch Paediatr Dent

147

116

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Considering the superior physical and biologic properties, Biodentine™ could be an efficient alternative to MTA to be used in a variety of clinical applications. There appears to be a wide range of clinical applications where Biodentine™ could be used in the field of endodontics, dental traumatology, restorative dentistry and pediatric dentistry. Although it seems to be good clinical practice, currently there is little clinical evidence to support all potential indications.

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Calcification as an indicator of osteoinductive capacity of biomaterials in osteoblastic cell cultures

et al. 2005

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Ronald Verbeeck

Setting Reaction and Hardening of an Apatitic Calcium Phosphate Cement

Synthesis and thermal properties of poly(ethylene glycol)-poly(ϵ-caprolactone) copolymers

Isolation, proliferation and differentiation of osteoblastic cells to study cell/biomaterial interactions: comparison of different isolation techniques and source

Biodentine™ material characteristics and clinical applications: a review of the literature

Calcification as an indicator of osteoinductive capacity of biomaterials in osteoblastic cell cultures

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