New biomimetic carbonate-hydroxyapatite nanocrystals (CHA) have been designed and synthesized in order to obtain a remineralization of the altered enamel surfaces. Synthesized CHA mimic for composition, structure, and nano dimension and physical properties resemble closely those exhibited by enamel natural apatite. CHA can chemically bind themselves on the surface of natural enamel apatite thanks to their tailored biomimetic characteristics. The remineralization effect induced by CHA represents a real new deposition of carbonate-hydroxyapatite into the eroded enamel surface scratches forming a persistant biomimetic mineral coating, which covers and safeguards the enamel sctructure. The experimental results point out the possibility to use materials alternative to fluoride compounds which is commonly utilized to contrast the mechanical abrasions and acid attacks. The apatitic synthetic coating is less crystalline than enamel natural apatite, but consists of a new biomimetic apatitic mineral deposition which progressively fills the surface scratches. Therefore the application of biomimetic CHA may be considered an innovative approach to constrast the acid and bacteria attacks.
Synthetic Biomimetic Carbonate-Hydroxyapatite Nanocrystals for Enamel Remineralization / N. Roveri; E. Battistella; I. Foltran; E. Foresti; M. Iafisco; M. Lelli; B. Palazzo; L. Rimondini. - STAMPA. - 47-50:PART 2(2008), pp. 821-824. (Intervento presentato al convegno International Conference on Multifunctional Materials and Structures tenutosi a Hong Kong (China) nel 23-31 luglio) [10.4028/www.scientific.net/AMR.47-50.821].
Synthetic Biomimetic Carbonate-Hydroxyapatite Nanocrystals for Enamel Remineralization
ROVERI, NORBERTO;FOLTRAN, ISMAELA;FORESTI, ELISABETTA;IAFISCO, MICHELE;PALAZZO, BARBARA;LELLI, MARCO
2008
Abstract
New biomimetic carbonate-hydroxyapatite nanocrystals (CHA) have been designed and synthesized in order to obtain a remineralization of the altered enamel surfaces. Synthesized CHA mimic for composition, structure, and nano dimension and physical properties resemble closely those exhibited by enamel natural apatite. CHA can chemically bind themselves on the surface of natural enamel apatite thanks to their tailored biomimetic characteristics. The remineralization effect induced by CHA represents a real new deposition of carbonate-hydroxyapatite into the eroded enamel surface scratches forming a persistant biomimetic mineral coating, which covers and safeguards the enamel sctructure. The experimental results point out the possibility to use materials alternative to fluoride compounds which is commonly utilized to contrast the mechanical abrasions and acid attacks. The apatitic synthetic coating is less crystalline than enamel natural apatite, but consists of a new biomimetic apatitic mineral deposition which progressively fills the surface scratches. Therefore the application of biomimetic CHA may be considered an innovative approach to constrast the acid and bacteria attacks.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
