用空气喷磨和两种不同的等离子设备从 TiUnite®种植体表面去除体外生物膜。

In-vitro biofilm removal from TiUnite® implant surface with an air polishing and two different plasma devices.

机构信息

Department of Restorative Dentistry, Periodontology, Endodontology, Preventive Dentistry and Paediatric Dentistry, Dental School, University Medicine Greifswald, Walther-Rathenau-Str. 42a, Greifswald, D - 17475, Germany.

Imaging Center of the Department of Biology, University of Greifswald, Greifswald, Germany.

出版信息

BMC Oral Health. 2024 May 13;24(1):558. doi: 10.1186/s12903-024-04230-9.

DOI:10.1186/s12903-024-04230-9

PMID:38741081

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11089677/

Abstract

BACKGROUND

We investigated the efficacy of two different cold atmospheric pressure jet plasma devices (CAP09 and CAPmed) and an air polishing device with glycine powder (AP) either applied as monotherapies or combined therapies (AP + CAP09; AP + CAPmed), in microbial biofilm removal from discs with anodised titanium surface.

METHODS

Discs covered with 7-day-old microbial biofilm were treated either with CAP09, CAPmed, AP, AP + CAP09 or AP + CAPmed and compared with negative and positive controls. Biofilm removal was assessed with flourescence and electron microscopy immediately after treatment and after 5 days of reincubation of the treated discs.

RESULTS

Treatment with CAP09 or CAPmed did not lead to an effective biofilm removal, whereas treatment with AP detached the complete biofilm, which however regrew to baseline magnitude after 5 days of reincubation. Both combination therapies (AP + CAP09 and AP + CAPmed) achieved a complete biofilm removal immediately after cleaning. However, biofilm regrew after 5 days on 50% of the discs treated with the combination therapy.

CONCLUSION

AP treatment alone can remove gross biofilm immediately from anodised titanium surfaces. However, it did not impede regrowth after 5 days, because microorganisms were probably hidden in holes and troughs, from which they could regrow, and which were inaccessible to AP. The combination of AP and plasma treatment probably removed or inactivated microorganisms also from these hard to access spots. These results were independent of the choice of plasma device.

摘要

背景

我们研究了两种不同的冷大气压射流等离子体设备 (CAP09 和 CAPmed) 和一种带有甘氨酸粉末的空气抛光设备 (AP)，分别作为单一疗法或联合疗法 (AP+CAP09; AP+CAPmed)，用于去除阳极氧化钛表面牙盘上的微生物生物膜。

方法

用 7 天龄的微生物生物膜覆盖牙盘，用 CAP09、CAPmed、AP、AP+CAP09 或 AP+CAPmed 处理，并与阴性和阳性对照进行比较。处理后立即和处理后 5 天再培养处理牙盘时，用荧光和电子显微镜评估生物膜去除情况。

结果

CAP09 或 CAPmed 处理不能有效去除生物膜，而 AP 处理可去除完整的生物膜，但在再培养 5 天后生物膜又重新生长到基线水平。两种联合治疗 (AP+CAP09 和 AP+CAPmed) 立即清洁后即可实现完全的生物膜去除。然而，在 5 天后，有 50%的联合治疗牙盘上的生物膜又重新生长。

结论

单独使用 AP 可立即从阳极氧化钛表面去除大量生物膜。然而，它并不能阻止 5 天后的再生长，因为微生物可能隐藏在孔和槽中，它们可以从这些难以触及的地方重新生长，而 AP 无法到达这些地方。AP 和等离子体处理的联合可能也从这些难以触及的地方去除或灭活微生物。这些结果与等离子体设备的选择无关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f622/11089677/266470c8fb6e/12903_2024_4230_Fig1_HTML.jpg

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用空气喷磨和两种不同的等离子设备从 TiUnite®种植体表面去除体外生物膜。

In-vitro biofilm removal from TiUnite® implant surface with an air polishing and two different plasma devices.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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