Evaluation of The Interaction Between Alternative Endodontic Irrigation Solutions

Kapadokya Üniversitesi Pub Date : 2023-06-26 DOI:10.54995/asc.3.1.4

Melek Hilal Kaplan, H. Erdoğan

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Abstract

Statement of the problem: For successful endodontic treatment, mechanical cleaning and chemical irrigation can be used together. Since the-re is not yet a single solution sufficient for both root canal cleaning alone, combined use of irrigants is recommended for the synergistic effect. Poly-hexanide (PHMB), boric acid, phytic acid, peracetic acid, and hypochlorous acid are relatively new alternative endodontic irrigation solutions and there are no studies in the literature on the combined use of alternative solutions. Objective: This study aimed to evaluate the interactions that would result from applying PHMB as a substitute for CHX following alternative in-termediate irrigation solutions that might be utili-zed with NaOCl. Materials & Methods: Eight microtubes were used for this study. 0.5ml of 5%NaOCl was placed in each microtube first, the microtubes were divided into two groups as the final product CHX and Polyhexanide, and the two groups were divided into four groups with different irrigants in themselves. The study was conducted at room temperature and the images of the mixtures were photographed at 1 min, 10 min, 20 min, 30 min, and 1 hour. Groups; G1: NaOCl+ 1%Phytic acid +0.1%Polyhexanide, G2: NaOCl+ 0.02%Hypochlorous acid +0.1%Polyhexanide, G3: NaOCl+ 2% Peracetic acid +0.1%Polyhexanide, G4: NaOCl+ 5% Boric acid +0.1%Polyhexanide, G5: NaOCl+ Phytic acid+ 2%CHX, G6: NaOCl+ 0.02%Hypochlorous acid +2%CHX, G7: NaOCl+ 2% Peracetic acid+2%CHX, G8: NaOCl+ 5% Boric acid + 2%CHX. Results: White or brown precipitates occurred as soon as the soluti-ons were applied to all of the CHX groups; milky-white precipitate was only seen in the Polyhexanide group's Phytic acid-added group. After 5 minutes, air bubbles were seen in the Polyhexanide group that had Peracetic acid ad-ded, whereas the CHX group had an increase in brown precipitates. Conclusions: Considering the current research conditions, In clinical practice, the administration of Polyhexanite as the last irrigant and the com-bination of NaOCl with boric acid or hypochlorous acid can be advised.

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不同根管灌洗液相互作用的评价

问题陈述:为了成功的根管治疗，机械清洗和化学冲洗可以一起使用。由于-re还不是一种单一的溶液，不足以单独清洁根管，因此建议联合使用冲洗剂以获得协同效果。聚己酸(PHMB)、硼酸、植酸、过氧乙酸、次氯酸是较新的替代根管冲洗液，目前文献中还没有关于替代溶液联合使用的研究。目的:本研究旨在评估使用PHMB替代CHX后可能与NaOCl一起使用的替代中间灌洗液所产生的相互作用。材料与方法:采用8根微管。先将0.5ml的5%NaOCl放入每个微管中，将微管分为两组，分别作为最终产物CHX和Polyhexanide，两组又分为四组，各自有不同的冲洗剂。研究在室温下进行，分别在1分钟、10分钟、20分钟、30分钟和1小时拍摄混合物的图像。组织;G1: NaOCl+ 1%植酸+0.1%聚己烯，G2: NaOCl+ 0.02%次氯酸+0.1%聚己烯，G3: NaOCl+ 2%过氧乙酸+0.1%聚己烯，G4: NaOCl+ 5%硼酸+0.1%聚己烯，G5: NaOCl+植酸+2% chx, G6: NaOCl+ 0.02%次氯酸+2% chx, G7: NaOCl+ 2%过氧乙酸+2% chx, G8: NaOCl+ 5%硼酸+2% chx。结果:各CHX组均出现白色或棕色沉淀;乳白色的沉淀只出现在聚己胺组的植酸添加组。5分钟后，加入过氧乙酸的聚己胺组出现气泡，而CHX组棕色沉淀物增加。结论:考虑到目前的研究条件，在临床实践中，建议将聚己酸作为最后冲洗剂，并建议NaOCl与硼酸或次氯酸联合使用。

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Kapadokya Üniversitesi

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