1. Experimental EDX analysis of different periodontal splinting systems.
- Author
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Goriuc A, Jităreanu A, Mârțu I, Dascălu CG, Kappenberg-Niţescu DC, Solomon SM, Mârțu A, Foia L, Țapu I, Istrate B, Tatarciuc M, and Luchian I
- Abstract
Physiological/normal tooth mobility may be defined as the slight displacement of the clinical crown of a tooth, which is allowed by the resilience of an intact and healthy periodontium, under the application of a moderate force. The factors influencing the success and longevity of dental splinting are the type of material used for the splint, the type of composite resin, the number and location of the dental units included for splinting (maxillary or mandibular arch). In periodontology, the term 'splint' is defined as the joining of two or more teeth into a rigid unit through restorations or fixed or removable devices. The purpose of using periodontal splints for tooth immobilization is to provide a period of rest in the areas where the healing process has begun and to allow normal functioning there where the tissues alone would not be able to withstand occlusal forces. The aim of the present study was to evaluate comparatively, by means of energy dispersive electron spectrometry (EDX), the chemical composition in the case of in vitro samples that structurally reproduce direct periodontal immobilization systems using fiberglass strips and fluid composite resins. The differences in the chemical composition of the investigated materials can influence their physiochemical properties, but also their biological and toxicological reliability. Elements such as C, O, Al, Si and Ba were identified as common elements among the resins tested in the present study. The only difference in terms of the component elements was found in the case of the fluid composite Clearfil Majesty ES Flow, which, apart from the elements mentioned, also presented Co in its structure., Competing Interests: The authors declare that they have no competing interests, and none of the authors have any affiliations with GC Corporation, Voco and Kuraray Noritake Dental., (Copyright: © Goriuc et al.)
- Published
- 2021
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