水射流与冷等离子体联合去除生物膜的效率：一项体外研究。

Efficiency of biofilm removal by combination of water jet and cold plasma: an in-vitro study.

机构信息

Department of Restorative Dentistry, Periodontology, Endodontology, Preventive Dentistry and Pedodontics, Dental School, University Medicine Greifswald, Fleischmannstr. 42, 17475, Greifswald, Germany.

Sirona Dental Systems GmbH, Bensheim, Germany.

出版信息

BMC Oral Health. 2022 May 6;22(1):157. doi: 10.1186/s12903-022-02195-1.

DOI:10.1186/s12903-022-02195-1

PMID:35524324

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9074283/

Abstract

BACKGROUND

Peri-implantitis therapy is a major problem in implantology. Because of challenging rough implant surface and implant geometry, microorganisms can hide and survive in implant microstructures and impede debridement. We developed a new water jet (WJ) device and a new cold atmospheric pressure plasma (CAP) device to overcome these problems and investigated aspects of efficacy in vitro and safety with the aim to create the prerequisites for a clinical pilot study with these medical devices.

METHODS

We compared the efficiency of a single treatment with a WJ or curette and cotton swab (CC) without or with adjunctive use of CAP (WJ + CAP, CC + CAP) to remove biofilm in vitro from rough titanium discs. Treatment efficacy was evaluated by measuring turbidity up to 72 h for bacterial re-growth or spreading of osteoblast-like cells (MG-63) after 5 days with scanning electron microscopy. With respect to application safety, the WJ and CAP instruments were examined according to basic regulations for medical devices.

RESULTS

After 96 h of incubation all WJ and CC treated disks were turbid but 67% of WJ + CAP and 46% CC + CAP treated specimens were still clear. The increase in turbidity after WJ treatment was delayed by about 20 h compared to CC treatment. In combination with CAP the cell coverage significantly increased to 82% (WJ + CAP) or 72% (CC + CAP), compared to single treatment 11% (WJ) or 10% (CC).

CONCLUSION

The newly developed water jet device effectively removes biofilm from rough titanium surfaces in vitro and, in combination with the new CAP device, biologically acceptable surfaces allow osteoblasts to grow. WJ in combination with CAP leads to cleaner surfaces than the usage of curette and cotton swabs with or without subsequent plasma treatment. Our next step will be a clinical pilot study with these new devices to assess the clinical healing process.

摘要

背景

种植体周围炎的治疗是种植学中的一个主要问题。由于种植体表面粗糙且几何形状复杂，微生物可以隐藏并存活在种植体的微观结构中，从而阻碍清创。我们开发了一种新的水射流（WJ）装置和一种新的冷大气压等离子体（CAP）装置，以克服这些问题，并研究了体外疗效和安全性方面的问题，旨在为这些医疗器械的临床初步研究创造前提条件。

方法

我们比较了单独使用 WJ 或刮匙和棉签（CC），以及联合使用 CAP（WJ+CAP、CC+CAP）从粗糙钛盘上清除生物膜的效率。通过测量细菌再生长的浊度或 5 天后成骨样细胞（MG-63）的扩散情况，在 72 小时内评估治疗效果。用扫描电子显微镜观察。关于应用安全性，WJ 和 CAP 仪器根据医疗器械的基本规定进行了检查。

结果

孵育 96 小时后，所有 WJ 和 CC 处理的圆盘均浑浊，但 67%的 WJ+CAP 和 46%的 CC+CAP 处理标本仍清晰。与 CC 处理相比，WJ 处理后浊度的增加延迟了约 20 小时。联合 CAP 处理后，细胞覆盖率显著增加至 82%（WJ+CAP）或 72%（CC+CAP），而单独处理时为 11%（WJ）或 10%（CC）。

结论

新开发的水射流装置可有效清除粗糙钛表面的生物膜，与新的 CAP 装置联合使用时，可获得生物可接受的表面，使成骨细胞得以生长。WJ 联合 CAP 处理后，表面比使用刮匙和棉签联合或不联合随后的等离子体处理更清洁。下一步将使用这些新设备进行临床初步研究，以评估临床愈合过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/487a/9074283/5a3ecdc2e01d/12903_2022_2195_Fig1_HTML.jpg

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水射流与冷等离子体联合去除生物膜的效率：一项体外研究。

Efficiency of biofilm removal by combination of water jet and cold plasma: an in-vitro study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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