Effect of orthodontic traction on the microstructure of dental enamel / 南方医科大学学报
Journal of Southern Medical University
; (12): 1165-1171, 2020.
Article
de Zh
| WPRIM
| ID: wpr-828909
Bibliothèque responsable:
WPRO
ABSTRACT
OBJECTIVE@#To investigate the effect of orthodontic traction on the microstructure of dental enamel.@*METHODS@#Forty-eight isolated premolars were randomly divided into 6 groups (=8), including Group A (blank control group), in which the teeth were bonded with the orthodontic brackets without any loading force; Groups B1, B2, and B3 where the teeth were bonded with the orthodontic brackets using clinical adhesives and loaded with 50 g force for 6 months, 200 g force for 6 months, and 200 g force for 1 month, respectively; and Groups C1 and C2, where the teeth were bonded with straight wire brackets using light curing bonding and chemical curing bonding techniques, respectively. All the teeth were embedded with non-decalcified epoxy resin. Scanning electron microscope (SEM), atomic force microscope (AFM), and energy spectrometer (EDS) were used to analyze interface morphology and elemental composition of the teeth sliced with a hard tissue microtome.@*RESULTS@#Compared with those in Group A, the teeth in the other 5 groups showed increased adhesive residue index with microcracks and void structures on the enamel surface under SEM; AFM revealed microcracks on the enamel surface with angles to the grinding direction. A larger loading force on the bracket resulted in more microcracks on the enamel interface. The interface roughness differed significantly between Groups A and C2, and the peak-to-valley distance differed significantly between Groups A, C, and C2.@*CONCLUSIONS@#Orthodontic traction can cause changes in the microstructure of normal dental enamel.
Mots clés
Texte intégral:
1
Indice:
WPRIM
Sujet Principal:
Propriétés de surface
/
Traction
/
Test de matériaux
/
Brackets orthodontiques
/
Céments résine
/
Émail dentaire
langue:
Zh
Texte intégral:
Journal of Southern Medical University
Année:
2020
Type:
Article