Background:The process of cleaning and shaping the canal is not an easy goal to obtain, as canal curvature played a significant role during the instrumentation of the curved canals.Aim:The present in vivo study was conducted to evaluate procedural errors during the preparation of curved root canals using hand Nitiflex and rotary K3XF instruments.Materials and Methods:Procedural errors such as ledge formation, instrument separation, and perforation (apical, furcal, strip) were determined in sixty patients, divided into two groups. In Group I, thirty teeth in thirty patients were prepared using hand Nitiflex system, and in Group II, thirty teeth in thirty patients were prepared using K3XF rotary system. The evaluation was done clinically as well as radiographically. The results recorded from both groups were compiled and put to statistical analysis.Statistical Analysis:Chi-square test was used to compare the procedural errors (instrument separation, ledge formation, and perforation).Results:In the present study, both hand Nitiflex and rotary K3XF showed ledge formation and instrument separation. Although ledge formation and instrument separation by rotary K3XF file system was less as compared to hand Nitiflex. No perforation was seen in both the instrument groups.Conclusion:Canal curvature played a significant role during the instrumentation of the curved canals. Procedural errors such as ledge formation and instrument separation by rotary K3XF file system were less as compared to hand Nitiflex.
Background: The most common technique for gingival augmentation is free gingival graft (FGG). The aim of this study is to clinically compare the efficacy of FGG harvested with erbium: yttrium-aluminum-garnet (Er: YAG) laser stabilized with 5-0 silk suture in comparison to N-butyl-2-cyanoacrylate tissue adhesive in increasing the width of keratinized gingiva (WK) for the management of Miller's Class I and II gingival recession. Methodology: Forty-eight gingival recession defects were divided into two Groups I and II. Group I sites were treated with FGG harvested using Er: YAG laser stabilized with 5-0 silk suture and Group II sites were treated with FGG harvested using Er: YAG laser stabilized with N-butyl-2-cyanoacrylate tissue adhesive. Clinical parameters such as gingival recession depth, clinical attachment level (CAL), gain in gingival tissue thickness, and WK were recorded at baseline and 3 and 6 months postoperatively. Results: A significant reduction in gingival recession defects, gain in CAL, increase in WK, and gain in gingival tissue thickness were observed in both the groups. Intergroup comparison of gingival recession defects, CAL, WK, and gingival tissue thickness yielded nonsignificant differences. Conclusion: Within the limits of this study, it can be concluded that both 5-0 silk suture and n-butyl-2-cyanoacrylate were equally efficacious in the stabilization of FGG. N-butyl-2-cyanoacrylate was easy to apply, consumed less operating time, and had no adverse effect. Hence, cyanoacrylate can be used as an alternative to suture in stabilization of FGG.
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