View clinical trials related to Deep Caries.
Filter by:Purpose: The purpose of this study was to investigate the clinical and microbiological effectiveness of the ozone application in stepwise excavation of primary molars. Methods: This study was conducted in vivo conditions with 105 lower primary second molars that had deep caries lesions with the risk of pulpal exposure. The teeth were randomly divided into three groups: Conventional stepwise excavation without any disinfectant, 2% chlorhexidine digluconate(CHX) and ozone application. In four different stages (after; initial excavation, ozone/CHX application, four months, final excavation), dentine samples were collected for microbiological analysis of mutans streptococci, lactobacilli and total number of colony forming units. Clinical changes as dentine colour, humidity, consistency were recorded. The data were analysed by Mann-Whitney U, Friedman and chi-square test.
This study aimed to assess the clinical and radiographic success for photo-activated oral disinfection (PAD) and calcium hydroxide in indirect pulp treatment (IPT) of young permanent molars.
Clinical and microbiological evaluation of Calcium silicate versus Calcium hydroxide in two-step indirect pulp treatment: Randomized clinical trial
The aim of this study is to compare the clinical and radiographic success of indirect pulp capping of vital young permanent teeth with deep caries using two-step antibacterial bonding system versus conventional one.
The objective of this study is to assess and compare the possible post-operative pulpal symptoms (Spontaneous pain, pain on percussion, swelling, sinus or fistula), incidence of pulp exposure, child acceptance, chair time and radiographic success between two techniques for managing dental caries: minimal caries removal and complete caries removal in primary molars.
The aim of this study is to compare the effect of new bioactive dentine substitute (Biodentine) versus glass ionomer cement in very deep carious lesions clinically and radiographically using digital radiography in the terms of postoperative pain and biocompatibility to the pulp.
The purpose is to compare the efficacy of an intraosseous anaesthesia using a computerized system (QuickSleeper) to a conventional infiltration anesthesia. Our hypothesis is that anesthesia via QuickSleeper system can reduce pain during anesthesia and obtain a more rapid local anesthesia compared to the anesthesia via conventional technique by infiltration. Design: split-mouth design AND parallel-arm design