Emre Özel scite author profile

Sports dentistry is one of the most recent and upcoming fields in dentistry. It includes mainly the prevention and management of sports-related orofacial injuries and associated oral diseases or traumas. The dentist can play a critical role in informing athletes, coaches, and patients and their parents about the importance of prevention, treatment, and diagnosis for orofacial injuries in sports. The most significant aspect in preventing sports-related orofacial injuries is wearing basic protective devices such as properly fitting helmets, face masks, and/or mouthguards. A properly fitted mouthguard prevents violent contact between the upper and lower dentition. According to the American Society for Testing and Materials, there are three types of mouthguards: custom-fabricated mouthguards, mouth-formed guards, and stock mouthguards. Essential properties of the various materials used in the manufacture of mouthguards include water absorption, density, and thickness as well as temperature transmission, energy absorption, and drawing strength (tensile strength) of custom-made mouthguards. Currently, a variety of materials is being used for mouthguards, most commonly polyvinyl acetate-polyethylene copolymer or ethylene vinyl acetate copolymer and polyvinyl chloride. Mouthguard use is significant for athletes, since dentists play an important role in the design and application of these in clinical practice. The purpose of this article is to review the importance of mouthguard use, the incidence and location of orofacial sports injuries, the risk factors for such injuries, and the types of mouthguards and their roles in the prevention of sports-related orofacial injuries.

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Effect of one-step polishing systems on surface roughness of different flowable restorative materials

Özel

Korkmaz

Attar

et al. 2008

Dent. Mater. J.

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Effect of Fiber Nets, Application Techniques and Flowable Composites on Microleakage and the Effect of Fiber Nets on Polymerization Shrinkage in Class II MOD Cavities

Özel¹,

Soyman²

2009

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SUMMARYThis study evaluated the effects of fiber nets and application techniques and flowable composites as a liner on microleakage and the effects of fiber nets on polymerization shrinkage in Class II MOD cavities. Standard MOD cavities were performed in 80 extracted third molars. The teeth were randomly divided into eight groups (n=10 +FSI. All the teeth were then immersed in 0.5% basic fuchsin solution for 24 hours after thermocycling for 1000 cycles (5°C and 55°C). The teeth were sectioned longitudinally and observed under a stereomicroscope. In order to determine the polymerization shrinkage, another study was designed. In Group A, composite was applied as a bulk. In Group B, the resin composite was divided into two parts and Ribbond fiber was placed in the middle of the mass. In Group C, everStick NET fiber was placed inside the composite, as in Group B. Statistical analysis were performed by using one-way ANOVA and Tukey HSD tests for both microleakage and polymerization shrinkage (p<0.05). Less microleakage was observed in groups where composites were applied by the incremental technique compared with those E Ozel • M Soyman Clinical RelevanceFiber nets applied to Class II composite restorations resulted in a significant reduction in microleakage. Fiber nets also decreased polymerization shrinkage. Therefore, these materials may be acceptable for clinical applications. Incremental placement remains the preferred restorative technique for posterior composite restorations.

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Emre Özel

The Influence of One-step Polishing Systems on the Surface Roughness and Microhardness of Nanocomposites

Qualitative and quantitative evaluation of enamel after various stripping methods

Factors Affecting Sports-Related Orofacial Injuries and the Importance of Mouthguards

Effect of one-step polishing systems on surface roughness of different flowable restorative materials

Effect of Fiber Nets, Application Techniques and Flowable Composites on Microleakage and the Effect of Fiber Nets on Polymerization Shrinkage in Class II MOD Cavities

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