Uzun O, Topuz O, Tinaz C, Nekoofar M H, Dummer P M H
Department of Operative Dentistry and Endodontics, Faculty of Dentistry, Gazi University, Ankara, Turkey.
Int Endod J. 2008 Sep;41(9):725-32. doi: 10.1111/j.1365-2591.2008.01416.x. Epub 2008 Jul 14.
To evaluate ex vivo the accuracy of the integrated electronic root canal length measurement devices within TCM Endo V and Tri Auto ZX motors whilst removing gutta-percha and sealer from filled root canals.
Forty freshly extracted maxillary and mandibular incisor teeth with mature apices were selected. Following access cavity preparation, the length of the root canals were measured visually 0.5 mm short of the major foramen (TL). The canals were prepared using the HERO 642 system and then filled with gutta-percha and AH26 sealer using a lateral compaction technique. After 7 days the coronal temporary filling was removed and the roots mounted in an alginate experimental model. The roots were then randomly divided in two groups. The access cavities were filled with chloroform to soften the gutta-percha and allow its penetration using the Tri Auto ZX and the TCM Endo V devices in groups 1 and 2, respectively. The 'automatic apical reverse function' (ARL) of both devices was set to start at the 0.5 setting and the rotary instrument inserted inside the root canal until a beeping sound was heard and the rotation of the file stopped automatically. Once the auto reverse function had been initiated, the foot pedal of the motor was inactivated and the rubber stop placed against the reference point. The distance between the file tip and rubber stop was measured using a digital calliper to 0.01 mm accuracy (ARL). Then, a size 20, 0.02 taper instrument was attached to each device and inserted into the root canals without rotary motion until the integrated ERCLMDs positioned the instrument tips at the 0.5 setting as suggested by the devices. This length was again measured using a digital calliper (EL). The Mann-Whitney U-test was used to investigate statistical differences between the true canal length and those indicated by the two devices when used in 'automatic ARL and when inserted passively (EL).
In the presence of gutta-percha, sealer and chloroform, the auto-reverse function for the Tri Auto ZX and TCM Endo V, set to start at 0.5 level, was initiated beyond the foramen in 60% and 95% of the samples, respectively during active (rotary) penetration of the instruments. There was a statistically significant difference between the devices for the mean discrepancies between the length at which the auto reverse function was initiated and the true length (P < 0.001). Electronic detection of the apical terminus when the instruments were introduced passively (not rotating) was beyond the foramen in 20% and 37% of cases in the Tri Auto ZX group and the TCM Endo V group, respectively. There was a statistically significant difference between the devices for the mean discrepancies between the electronically determined (passive) length and true length (P < 0.01).
The auto reverse function of the Tri Auto ZX and TCM Endo V devices, set to start at 0.5 level, were initiated beyond the foramen in the majority of root-filled teeth during active (rotating) penetration of root filling material. Thus, this automatic function must be used with caution when removing gutta-percha root fillings. There were significant differences between the accuracy of measurements in active (rotating) and passive (not-rotating) modes; both devices were more accurate when used in passive mode. However, the Tri Auto ZX was significantly more accurate in a greater proportion of cases.
在体外评估中医牙髓治疗V型和Tri Auto ZX型一体化电子根管长度测量装置在从已充填根管中去除牙胶和封闭剂时的准确性。
选择40颗新鲜拔除的根尖成熟的上颌和下颌切牙。开髓后,在直视下将根管长度测量至距主根尖孔短0.5mm处(TL)。使用HERO 642系统预备根管,然后采用侧向加压技术用牙胶和AH26封闭剂充填根管。7天后去除冠部临时充填物,将牙根固定于藻酸盐实验模型中。然后将牙根随机分为两组。第1组和第2组分别用氯仿充填开髓腔以软化牙胶,并分别使用Tri Auto ZX和中医牙髓治疗V型装置使其渗透。将两种装置的“自动根尖反向功能”(ARL)设置为从0.5设置开始,将旋转器械插入根管内,直到听到蜂鸣声且锉自动停止旋转。一旦启动自动反向功能,关闭电机的脚踏板,并将橡胶止动器靠在参考点上。使用数字卡尺精确到0.01mm测量锉尖与橡胶止动器之间的距离(ARL)。然后,将20号、0.02锥度的器械连接到每个装置上,在不旋转的情况下插入根管,直到一体化电子根管长度测量装置(ERCLMDs)将器械尖端定位在装置建议的0.5设置处。再次使用数字卡尺测量该长度(EL)。采用曼-惠特尼U检验来研究在“自动ARL”模式下以及被动插入(EL)时,真实根管长度与两种装置指示长度之间的统计学差异。
在存在牙胶、封闭剂和氯仿的情况下,在器械主动(旋转)穿透过程中,设置为从0.5水平开始的Tri Auto ZX和中医牙髓治疗V型装置的自动反向功能,分别在60%和95%的样本中在根尖孔以外启动。两种装置在自动反向功能启动长度与真实长度之间的平均差异上存在统计学显著差异(P<0.001)。当器械被动(不旋转)插入时,Tri Auto ZX组和中医牙髓治疗V型组分别有20%和37%的病例中电子检测到的根尖终点超出根尖孔。两种装置在电子确定(被动)长度与真实长度之间的平均差异上存在统计学显著差异(P<0.01)。
设置为从0.5水平开始的Tri Auto ZX和中医牙髓治疗V型装置的自动反向功能,在根充材料主动(旋转)穿透过程中,在大多数已充填根管的牙齿中在根尖孔以外启动。因此,在去除牙胶根充物时必须谨慎使用此自动功能。主动(旋转)和被动(不旋转)模式下的测量准确性存在显著差异;两种装置在被动模式下使用时更准确。然而,在更大比例的病例中,Tri Auto ZX明显更准确。
