Abstract
Background Acidic beverages, such as soft drinks, can produce erosion of resin composites. The purpose of the present study was to investigate mechanical properties of different esthetic restorative materials after exposure to acidic drink. Methods Nine different composites were tested: nanofilled (Filtek Supreme XTE, 3M ESPE), microfilled hybrid (G-ænial, GC Corporation), nanohybrid Ormocer (Admira Fusion, Voco), microfilled (Gradia Direct, GC Corporation), microfilled hybrid (Essentia, GC Corporation), nanoceramic (Ceram.X Universal, Dentsply De Trey), supranano spherical hybrid (Estelite Asteria, Tokuyama Dental Corporation), flowable microfilled hybrid (Gradia Direct Flo, GC Corporation), and bulk fill flowable (SureFil SDR flow, Dentsply De Trey). Thirty specimens of each esthetic restorative material were divided into 3 subgroups (n=10): specimens of subgroup 1 were used as control, specimens of subgroup 2 were immersed in 50 ml of Coca Cola for 1 week, and specimens of subgroup 3 were immersed in 50 ml of Coca Cola for 1 month. Flexural strength and elastic modulus were measured for each material with an Instron Universal Testing Machine. Data were submitted to statistical analysis. Results After distilled water immersion, nanofilled composite showed the highest value of both flexural strength and elastic modulus, but its flexural values decreased after acidic drink immersion. No significant differences were reported between distilled water and acidic drink immersion for all other materials tested both for flexural and for elastic modulus values. Conclusions Even if nanofilled composite showed highest results, acidic drink immersion significantly reduced flexural values.
Highlights
Dental caries is an infective process that causes the fade of the tooth’s hydroxyapatite
It is demonstrated that the persistence of the composites into an acidic environment can cause a loss of mechanical properties of composites, glass-ionomer cements, BioMed Research International and polyacid modified composites [11, 12]
The results of the groups that shoved intermediate flexural strength values were as follows: G-ænial (Group 2), Gradia Direct (Group 4), Essentia (Group 5), Ceram.X Universal (Group 6), Estelite Asteria (Group 7), Gradia Direct Flo (Group 8), and SureFil SDR flow (Group 9) showed similar values of flexural strength and no significant difference has been reported among them (P>0.05)
Summary
Dental caries is an infective process that causes the fade of the tooth’s hydroxyapatite. Many studies demonstrated that the acids contained in beverages [for example, coca cola] cause the erosion of the enamel, both in vitro and in vivo [7,8,9]. These acid substances can damage the tissues of the teeth, and the materials used to restore the teeth [10]. There are no studies about the change of flexural strength and elastic modulus of composite resins after exposure to acidic drinks. No significant differences were reported between distilled water and acidic drink immersion for all other materials tested both for flexural and for elastic modulus values. Even if nanofilled composite showed highest results, acidic drink immersion significantly reduced flexural values
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