The third molars revealed the highest frequency of impaction (P<0.001); the number of impacted teeth of the mandible was larger than that of the maxilla (P<0.001), and the number of impacted anterior teeth in the maxilla was larger than that in the mandible (P<0.001). Cases of impacted posterior teeth were more numerous than anterior teeth (P<0.001). The majority of patients revealed pathological signs, which dictated the surgical removal of the impacted tooth/teeth.
Services were requested primarily by individuals who were experiencing acute pain of endodontic origin, had low or no income and were available during morning hours, probably because of the service's low cost and operational hours. Prospective studies, such as the present investigation, can provide epidemiological evidence and indicate areas in the infrastructure of emergency services which may be improved. Additionally, such studies can provide rationale for public insurance programs and can generate profiles of the patients who utilise these low-cost public services.
This study aimed at providing a gauge device (Ekontak et al Gauge K-Device) in order to analyze the forces applied to teeth and periodontal tissues during dental practices in vitro. This force gauge device can be used in the investigation of the possible defect generation to tooth structures when overloaded forces are applied during dental procedures in vitro. Ekontak et al Gauge K-Device consists of three units: the specimen’s holder, a high-performance digital force gauge, and the support frame. The holder was fabricated by an Al alloy providing a steady detachable attachment between the specimens and the force gauge’s pin connector. The clinical simulation was achieved with the use of a proper silicone material, selected to provide similar elastic behavior with the human periodontal ligament and to join the teeth inside a solid matrix of an acrylic resin. The digital force gauge is a high-speed collection and recording (1000 Hz) product coupled with data recording software. The forces developed to 15 specimens’ root canals during lateral condensation and vertical compaction of cold gutta-percha obturation procedures were monitored, saved as graphs, CSV, and excel files and presented over time. The forces developed during vertical compaction (mean maximum force per obturation circle = 13.22 N) were more excessive than those during lateral condensation (mean maximum force per obturation circle = 10.14 N). In conclusion, Ekontak et al Gauge K-Device is provided as a modern gauge device, capable of performing clinical simulation in vitro, under the terms of its protocol.
The aims of this study were to assess the presence and the frequency of isthmuses in the mesial roots of the maxillary and mandibular first molars (at two resection levels from the apex), and to compare the findings obtained by macroscopic observation (MO) and operating microscope (OM). Forty maxillary and 40 mandibular mesial roots were observed at 3 and 5 mm from the apex initially macroscopically and then with the use of an OM. The presence of an isthmus and the number of root canals detected were recorded. Data were analyzed statistically by Fisher's exact test for isthmus evaluation and Wilcoxon signed rank-test for number of root canals at a confidence interval of 95%. Comparison between MO and OM regarding the number of roots with isthmuses provided the following results: Mandibular group: At 3 mm level: MO 19 vs. OM 27; at 5 mm level: MO 31 vs. OM 32. Maxillary group: At 3 mm level: MO 9 vs. OM 14; at 5 mm level: MO 19 vs. OM 21. Significant differences (p<0.05) were found concerning the accuracy of the isthmus detection methods at both resection levels (3 and 5 mm) and both types of roots, as well as for the number of the canals inspected under the OM between the two resection levels of the mesial roots of the maxillary first molars. Under the tested conditions, OM increased the diagnostic accuracy of isthmus detection at both resection levels and root types.
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