动理学对镍钛旋转根管预备器械的扭矩/力产生、表面特性和成形能力的影响:一项离体研究。
Effect of kinematics on the torque/force generation, surface characteristics, and shaping ability of a nickel-titanium rotary glide path instrument: An ex vivo study.
机构信息
Division of Oral Health Sciences, Department of Pulp Biology and Endodontics, Graduate School of Medical and Dental Sciences, Tokyo Medical and Dental University (TMDU), Tokyo, Japan.
Department of Conservative Dentistry, University of Dental Medicine (Mandalay), Mandalay, Myanmar.
出版信息
Int Endod J. 2022 May;55(5):531-543. doi: 10.1111/iej.13718. Epub 2022 Mar 18.
AIM
To evaluate the effect of various rotational motions on the torque/force generation, surface wear, and shaping ability of the ProGlider glide path instrument (Dentsply Sirona).
METHODOLOGY
Mesiobuccal and mesiolingual canals of mandibular molars were selected based on the canal volume, length, angle of curvature (25°-40°), and radius of curvature (4-8 mm) after micro-computed tomographic scanning. The samples were randomly assigned to four groups (n = 13, each) according to movement kinematics [continuous rotation (CR; 300 rpm), optimum torque reverse motion (OTR; 180° forward and 90° reverse when torque >0.4 N cm), time-dependent reciprocal motion (TmR; 180° forward and 90° reverse), and optimal glide path motion (OGP; a combination of 90° forward, 90° reverse, 90° forward, and 120° reverse)]. Instrumentation was performed with an automated root canal instrument and torque/force analysing device. Maximum torque/force values, canal volume changes, and canal-centring ratios at 1, 3, 5, and 7 mm were evaluated. Surface defects (pits, grooves, microcracks, blunt cutting edges, and disruption of cutting edges) and spiral distortion on the ProGlider instrument were scored at the tip and 5 mm short of the tip before and after five consecutive uses with scanning electron microscopy. The Kruskal-Wallis test followed by Dunn's post-test with Bonferroni correction and Wilcoxon signed-rank test were used to analyse the data (α = 0.05).
RESULTS
Optimal glide path motion generated significantly less clockwise torque and greater upward force than other groups (p < .05). OGP resulted in significantly fewer surface defects than CR (p < .05). In OGP and CR, the tip exhibited more surface defects than 5 mm short of the tip (p < .05). CR resulted in greater volume changes than OGP and TmR (p < .05) and greater centring ratios (i.e., more deviation) than OGP at 1 mm and OTR at 3 mm (p < .05).
CONCLUSIONS
Under laboratory conditions using the ProGlider instrument, OGP generated significantly less clockwise torque and greater upward force than the other rotatory motions. OGP generated fewer superficial defects than CR, and the three modes of reciprocal rotation better maintained the apical curvature of root canals than CR with the ProGlider instrument.
目的
评估不同旋转运动对 ProGlider 根管预备器械(登士柏西诺德)扭矩/力产生、表面磨损和成形能力的影响。
方法
根据根管容积、长度、曲率角(25°-40°)和曲率半径(4-8mm),对下颌磨牙的近中颊和近中舌根管进行微计算机断层扫描后选择样本。根据运动力学[连续旋转(CR;300rpm)、最佳扭矩反转运动(OTR;当扭矩>0.4Ncm 时,180°向前和 90°向后)、时间依赖往复运动(TmR;180°向前和 90°向后)和最佳滑行路径运动(OGP;90°向前、90°向后、90°向前和 120°向后的组合)]将样本随机分为四组(n=13,每组)。使用自动根管预备器械和扭矩/力分析装置进行器械预备。评估 1、3、5 和 7mm 时的最大扭矩/力值、根管容积变化和根管中心率。在连续使用 5 次前后,使用扫描电子显微镜对 ProGlider 器械尖端和尖端 5mm 处的表面缺陷(凹坑、凹槽、微裂纹、钝切削刃和切削刃破裂)和螺旋扭曲进行评分。使用 Kruskal-Wallis 检验,然后是带有 Bonferroni 校正的 Dunn 事后检验和 Wilcoxon 符号秩检验(α=0.05)进行数据分析。
结果
与其他组相比,最佳滑行路径运动产生的顺时针扭矩显著较小,向上力显著较大(p<0.05)。OGP 产生的表面缺陷明显少于 CR(p<0.05)。在 OGP 和 CR 中,尖端的表面缺陷比尖端 5mm 处更多(p<0.05)。CR 导致的容积变化大于 OGP 和 TmR(p<0.05),在 1mm 时的中心率(即偏差)大于 OGP,在 3mm 时的中心率大于 OTR(p<0.05)。
结论
在使用 ProGlider 器械的实验室条件下,OGP 产生的顺时针扭矩和向上力明显小于其他旋转运动。OGP 产生的表面缺陷明显少于 CR,而三种往复旋转模式比 CR 更能保持 ProGlider 器械根管的根尖曲率。
Zotero 插件