The Effect of Preheating Cycles of Resin Composite on Both Hypersensitivity and Clinical Performance Clinical Trial
Official title:
Effect Of Repeated Pre-Heating Of Resin Composite Restoration On Its Clinical Performance And Post-Operative Dentin Hypersensitivity "A Randomized Clinical Trial"
this study is conducted to evaluate the post-operative hypersensitivity and clinical performance of preheated resin composite with different number of pre-heating cycles in class II carious lesions compared to resin composite restorations without preheating using Modified US Public Health Service Clinical Criteria (USPHS).
1. Scientific Background One of the main problems associated with composite resin restorations is poor adaptation and gap formation between the restorative material and the cavity walls, resulting in the micro-leakage of oral fluids and accumulation of fluids responsible for many problems such as postoperative hypersensitivity, marginal discoloration and recurrent caries. Despite of recent developments in dental restorative materials and techniques, postoperative sensitivity following the application of a posterior resin composite restoration is often reported by dentists, as a clinical problem. Pre-application warming of dental resin composite restorative materials, is considered one of the modern modifications for the application of resin composite, which reduces viscosity and increases flowability, that in turn secures superior adaptation to the prepared cavity walls. Resin composite warming appliances found in the market nowadays, offer multiple choices for preheating either in different temperatures or in the form of the cassettes which could be compatible with different supplied forms from different manufacturers "capsules or syringes". Multiple cycles of preheating for the used composite resin syringe can affect both marginal integrity and mechanical properties of the resin composite according to the number of cycles applied. Increasing the temperature of dental resin composite before application can aid in monomer mobility inside its matrix giving high quality of degree of conversion and more highly cross-linked polymeric network. This kind of change of the rheology of the resin composite can aid in decreasing the postoperative hyper-sensitivity. However, an intensive review of literature failed to disclose the effect of using resin composite preheated for multiple times with different temperatures on the post-operative hypersensitivity. 2. Statement of the problem Using the same resin composite syringe that previously preheated multiple times in different daily restorative cases, can adversely affect the properties and the performance of the applied resin composite. 3. Hypothesis The null hypothesis is that using resin composite previously preheated for different cycles will not be different in reducing postoperative hypersensitivity, marginal integrity and mechanical properties of the resin composite as without preheating. D. The sample size calculation 1. primary outcome: This power analysis used marginal integrity after 12 months as the primary outcome. Based upon the results of Kurdi R and Abboud SA (2016); Bulk Fill composite showed 13 cases with (Alpha) score and 4 cases with (Beta) score, respectively. The effect size (w) was 0.53. Using alpha (α) level of (5%) and Beta (β) level of (20%) i.e. power = 80%; the minimum estimated sample size was 28 cases. Sample size was increased to 35 cases to compensate for a drop-out rate of 25% after 12 months. Sample size calculation was performed using G*Power Version 3.1.9.2. 2. secondary outcome: This power analysis used hypersensitivity grades after one day in patient with medium cavity depth as the primary outcome. The effect sizes w1 = (1.4) and w2 = (1.11) were calculated based upon the results of Ragab H (2018). Using alpha (α) level of (5%) and Beta (β) level of (20%) i.e. power = 80%; the minimum estimated sample size was a total of 11 subjects. Sample size was increased to a total of 14 subjects (7 subjects per group) to compensate for a dropout rate of 25%. Sample size calculation was performed using G*Power Version 3.1.9.2 ;