Cold atmospheric pressure plasma treatment to assist the restoration of the apical region of a root canal in endodontic procedures

Q1 Medicine
Alina Bisag , Michele Manzini , Emanuele Simoncelli , Augusto Stancampiano , Riccardo Tonini , Matteo Gherardi , Vittorio Colombo
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引用次数: 6

Abstract

Purpose

In Endodontics, in order to complete a root canal treatment, the use of guttapercha to completely seal the root apex must be coupled with endodontic cements known as sealers to improve the adhesion with dentine, despite their cytotoxicity and solubility. The present study investigates the effect of enhancement of adhesion between these materials and Cold Atmospheric Plasma (CAP)-treated dentine of the apical region of ex-vivo teeth as a first step towards the reduction on the use of cytotoxic materials and the use of CAP in-vivo at a clinical stage.

Methods

A dielectric barrier discharge (DBD) helium plasma jet was used to treat for 180 sec the shaped root canal dentin. Pushout tests and confocal microscopy analysis have been performed to evaluate the effect of cold plasma treatment in terms of adhesion performances and interaction between filling materials and dentin respectively.

Results

The pushout test results highlight how a 180 seconds CAP treatment of dentin promotes an enhancement of bonding strength between filling materials and dentine in all investigated cases. In particular, when the dentine is CAP-treated in the apical region, the adhesion performances of guttapercha achieved a relevant increase (~ +200%), revealing how it was able to “self-bond” with the substrate with results comparable with the conventional procedure but without any sealer application, while the conventional (guttapercha+sealer) apical sealing procedure shows an improvement around +50%. Moreover, confocal images qualitatively confirmed the higher spreading and penetration of both guttapercha and sealer into dentinal tubules. The ergonomics of the prototype has been also improved to comply with the dimensions of devices commonly used in the dental field, with a plasma source diameter of 21.5 mm and with a choice of materials to minimise its weight.

Conclusion

CAP treatment of dentin increases the adhesion performances and paves the way for a sealer-free and safer procedure for apical restoration.

Abstract Image

冷常压等离子体治疗在根管治疗中帮助根管根尖区域的修复
目的:在牙髓学中,为了完成根管治疗,尽管牙髓胶合剂具有细胞毒性和溶解性,但为了完全封闭根尖,必须结合牙髓胶合剂(即封闭剂)来改善与牙本质的粘连。本研究探讨了这些材料与低温大气等离子体(CAP)处理过的离体牙齿根尖区域的牙本质之间的粘附增强的影响,作为减少细胞毒性材料使用的第一步,并在临床阶段在体内使用CAP。方法采用介质阻挡放电(DBD)氦等离子体射流治疗根管形牙本质180秒。通过推出试验和共聚焦显微镜分析,分别评估了冷等离子体处理在充填材料与牙本质之间的粘附性能和相互作用方面的影响。结果推出试验结果突出了在所有调查病例中,牙本质的180秒CAP治疗如何促进填充材料与牙本质之间的结合强度的增强。特别是,当牙本质在根尖区域进行cap处理时,guttapercha的粘附性能获得了相应的提高(~ +200%),揭示了它如何能够与基材“自结合”,其结果与传统方法相当,但不需要使用任何封口剂,而传统(guttapercha+封口剂)根尖密封程序显示出约50%的改善。此外,共聚焦图像定性地证实了guttapercha和sealer在牙本质小管中的扩展和渗透程度较高。原型的人体工程学也得到了改进,以符合牙科领域常用设备的尺寸,等离子体源直径为21.5毫米,并选择了将重量降至最低的材料。结论cap治疗牙本质可提高牙本质的粘连性能,为根尖修复提供了一种无密封、更安全的方法。
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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来源期刊
Clinical Plasma Medicine
Clinical Plasma Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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