使用玻璃离子水门汀、矿物三氧化物凝聚体和生物活性玻璃进行根尖倒充填时根尖微渗漏的分光光度分析:一项体外研究。
Spectrophotometric analysis evaluating apical microleakage in retrograde filling using GIC, MTA and biodentine: an in-vitro study.
作者信息
Nepal Manisha, Shubham Snigdha, Tripathi Rupam, Khadka Jwolan, Kunwar Deepa, Gautam Vanita, Gautam Narayan
机构信息
Department of Conservative Dentistry and Endodontics, Universal College of Medical Sciences, Bhairahawa, Nepal.
Department of Conservative Dentistry and Endodontics, KIST Medical College, Lalitpur, Nepal.
出版信息
BMC Oral Health. 2020 Feb 3;20(1):37. doi: 10.1186/s12903-020-1025-9.
BACKGROUND
The present study compares the apical microleakage of three different root-end filling materials in which the retrograde cavity is prepared by two different burs.
METHODS
Eighty extracted single rooted maxillary and mandibular premolars were taken. Root canal treatment was completed. Apical 3 mm of all the teeth were resected with diamond disk. The tooth were divided into four groups with two subgroups for each group containing 10 tooth (N = 10) as: Group IA (Negative Control and IB (Positive Control); Group IIA and IIB: Prepared with round carbide bur and round diamond bur respectively, filled with GIC; Group IIIA and IIIB: Prepared with round carbide bur and round diamond bur respectively, filled with MTA; Group IVA and IVB: Prepared with round carbide bur and round diamond bur, filled with Biodentine. After applying two coats of nail varnish leaving apical 3 mm (except for negative control group) all teeth were immersed in 2% methylene blue for 3 days and again in 65% nitric acid for next 3 days for extraction of dye. The obtained solution was then transferred to eppendorf tube and centrifuged in microcentrifuges at 14,000 revolution per minutes (RPM) for 5 min. Optical density or absorbance of the supernatant solution was measured with UV spectrophotometer at 550 nm.
RESULTS
The absorbance of the supernatant solution after dye extraction is decreasing in the order of positive control> GIC > MTA > Biodentine> negative control group. The significant difference was observed between GIC and MTA (p = 0.0001) and GIC and Biodentine (p = 0.0001) with two different burs but statistically non-significant difference was observed between MTA and Biodentine with Carbide bur (p = 0.127) and Diamond bur (p = 0.496) respectively.
CONCLUSIONS
Within the limitations of the present study, it can be concluded that Biodentine and MTA showed less microleakage as compared to GIC. There is no significant difference between mean microleakage of MTA and Biodentine. However, the mean OD of the Biodentine was least of all evaluated materials. Preparation of the root-end using round carbide bur as well as round diamond burs showed comparable microleakage for all three filling materials.
背景
本研究比较了三种不同根尖充填材料的根尖微渗漏情况,其中倒充填窝洞由两种不同的车针制备。
方法
选取80颗拔除的单根上颌和下颌前磨牙。完成根管治疗。用金刚石盘切除所有牙齿的根尖3mm。将牙齿分为四组,每组两个亚组,每组含10颗牙齿(N = 10),分组如下:IA组(阴性对照组)和IB组(阳性对照组);IIA组和IIB组:分别用圆形硬质合金车针和圆形金刚石车针制备,用玻璃离子水门汀充填;IIIA组和IIIB组:分别用圆形硬质合金车针和圆形金刚石车针制备,用矿物三氧化物凝聚体充填;IVA组和IVB组:用圆形硬质合金车针和圆形金刚石车针制备,用生物活性玻璃陶瓷充填。在除根尖3mm外涂抹两层指甲油后(阴性对照组除外),将所有牙齿浸入2%亚甲蓝中3天,然后再浸入65%硝酸中3天以提取染料。然后将所得溶液转移至微量离心管中,在微量离心机中以每分钟14,000转(RPM)离心5分钟。用紫外分光光度计在550nm处测量上清液的光密度或吸光度。
结果
染料提取后上清液的吸光度按阳性对照组>GIC>MTA>生物活性玻璃陶瓷>阴性对照组的顺序递减。在使用两种不同车针时,观察到GIC与MTA之间(p = 0.0001)以及GIC与生物活性玻璃陶瓷之间(p = 0.0001)存在显著差异,但在使用硬质合金车针(p = 0.127)和金刚石车针(p = 0.496)时,观察到MTA与生物活性玻璃陶瓷之间在统计学上无显著差异。
结论
在本研究的局限性内,可以得出结论,与GIC相比,生物活性玻璃陶瓷和MTA显示出较少的微渗漏。MTA和生物活性玻璃陶瓷的平均微渗漏之间没有显著差异。然而,生物活性玻璃陶瓷的平均光密度在所有评估材料中最低。使用圆形硬质合金车针和圆形金刚石车针制备根尖显示,所有三种充填材料的微渗漏情况相当。
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