[Mechanical characteristics of ultrasonic device for root canal treatment].

H Hata
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Abstract

Recently, many studies have demonstrated the superiority of the ultrasonic devices in endodontic treatment, while other reports did not recognize the advantage of the ultrasonic instrumentation over hand instrumentation. This disagreement in opinion might be due to the fact that the mechanical characteristics of ultrasonic devices have not been clarified. Therefore, some factors which might contribute to the mechanical characteristics of ultrasonic device for root canal treatment were examined. These factors were: (a) applied force on file; (b) angle of connector; (c) position of substrate material being cut; (d) filing speed; and (e) resonance of file. These factors were examined by measuring the cutting depth on acrylic wafer using the cutting efficiency testing apparatus. This apparatus with a push-pull stroke approximately 4 mm in length, was propelled the root canal instruments in linear motion. The filing speed was adjusted to 100 strokes per minute. The results were as follows: 1. The greater load was given to the file, the higher was the cutting ability of ultrasonic device. But cutting efficiency of #15, #25 and #35 files were inhibited over the load of 50, 60 and 70g each. It was considered that the adequate load for filing utilized ultrasonic device was #15:50g, #25:60g and #35:70g. 2. The file attached to the angled connector had a cantilevered vibration. And the cutting ability was effected by connector angle. The 120 degree-type connector was more effective than straight type (180 degree-type connector). 3. Substrate materials were made deeper cut when it was applied against the vibrating direction of the file than were applied at right angle to vibrating direction of the file. 4. Cutting efficacy of ultrasonic device was evaluated under the conditions as filing speed of 25, 50 and 100 strokes/min by comparing each ratio of cutting depth per total number of filing strokes after 20 minutes. The ultrasonic vibration showed tighter cutting ability when this ultrasonic device was operated 25 strokes/min. 5. Cutting efficiency of two methods was examined under the same amplitude. One was to set up the file length slightly shifted from the resonance point and to give the amplitude to file using resonance phenomenon. The other was to set up the file length of nonresonance condition and to give the amplitude by power supplying from the device. The latter showed higher cutting ability without the risk of the file fracture.(ABSTRACT TRUNCATED AT 400 WORDS)

[根管治疗超声装置的力学特性]。
近年来,许多研究已经证明了超声设备在根管治疗中的优越性,而其他报道并没有认识到超声器械相对于手工器械的优势。这种意见上的分歧可能是由于超声波装置的机械特性尚未得到澄清。因此,本文对影响超声根管治疗装置力学特性的因素进行了探讨。这些因素是:(a)施加在档案上的力;(b)接头角度;(c)基材被切割的位置;(d)归档速度;(e)锉的共振。利用切割效率测试仪对亚克力片的切割深度进行了测试。该器械具有约4毫米长的推拉行程,以直线运动推动根管器械。锉锉速度调整为每分钟100次。实验结果如下:1.实验结果表明:锉的载荷越大,超声装置的切割能力越高。但15号、25号和35号锉的切削效率在50g、60g和70g载荷下受到抑制。认为利用超声装置锉削的适当载荷为#15:50g、#25:60g和#35:70g。2. 附在有角度的接头上的锉刀有悬臂振动。接头角度对切割能力有一定影响。120度型连接器比直型(180度型连接器)更有效。3.与锉刀的振动方向相反,与锉刀的振动方向成直角时,基材的切割深度要大得多。4. 通过比较20分钟后切削深度与总锉削次数的比值,评价超声装置在锉削速度为25、50、100次/min条件下的切削效果。当超声装置运行25次/min时,超声振动显示出更强的切割能力。5. 在相同振幅下,对两种方法的切割效率进行了检验。一种是设置文件长度从共振点略微偏移,并利用共振现象给文件振幅。另一种方法是建立非共振条件下的文件长度,并由器件供电给出幅值。后者具有较高的切削能力,且无锉状断裂的危险。(摘要删节为400字)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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