一种新颖、简单、频繁的口腔清洁方法可减少口腔微生物群中的有害细菌。

A Novel, Simple, Frequent Oral Cleaning Method Reduces Damaging Bacteria in the Dental Microbiota.

作者信息

Chhaliyil Pranav, Fischer Kael F, Schoel Bernd, Chhalliyil Pradheep

机构信息

MSAE School, Fairfield, Iowa, USA.

Department of Pathology, University of Utah School of Medicine, Salt Lake, Utah, USA.

出版信息

J Int Soc Prev Community Dent. 2020 Aug 6;10(4):511-519. doi: 10.4103/jispcd.JISPCD_31_20. eCollection 2020 Jul-Aug.

DOI:10.4103/jispcd.JISPCD_31_20

PMID:33042895

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7523940/

Abstract

AIM

Dental diseases can be prevented by reducing early bacterial colonization in biofilm, a precursor to mature dental plaque. Most studies on dental disease pathogenesis focus on mature plaque and fail to address the impact of oral cleaning on biofilm formation. Here we used next-generation metagenomics to assess the effects of a new method of regular, simple biofilm disruption on the oral metagenome.

MATERIALS AND METHODS

This was a randomized, controlled study of 45 healthy children divided into three groups. Participants avoided oral cleaning for 3 days and then performed 10 days of oral cleaning either by: (1) brushing and tongue cleaning twice a day (BT) with toothpaste; (2) Gum and tooth rubbing with Index Finger Tongue cleaning and water Swishing (GIFTS) after each meal, snack, and drink; or (3) GIFTS twice a day with nano-charcoal and tongue cleaning (CT) ( = 15 per group). Saliva, plaque, and tongue scraping samples were collected on day 0 and 10 for quantitative polymerase chain reaction (qPCR) and next-generation metagenomics sequencing to analyze microbiome taxa differences between groups.

RESULTS

GIFTS more significantly reduced ( < 0.004) total bacteria in saliva than BT ( < 0.02). Metagenomics revealed a significant reduction in Firmicutes in GIFTS and CT tongue samples compared to BT samples. BT and CT saliva samples showed significantly more species than GIFTS saliva samples. In the plaque samples, GIFTS cleaning significantly reduced early colonizers, including compared to the BT and CT methods.

CONCLUSION

Here, we introduce the "frequent disruption of biofilm" concept for enhanced oral hygiene. GIFTS can be used to prevent early bacterial colonization of biofilm and plaque formation in both small children and adults. Frequent biofilm disturbance more effectively disrupts early bacterial colonization than twice oral cleaning, is nonabrasive, and is, therefore, a practical and straightforward complement to regular toothbrushing for improved oral hygiene and disease prevention.

摘要

目的

通过减少生物膜（成熟牙菌斑的前身）中早期细菌定植可预防牙科疾病。大多数关于牙科疾病发病机制的研究都集中在成熟菌斑上，而未涉及口腔清洁对生物膜形成的影响。在此，我们使用新一代宏基因组学来评估一种新的定期、简单的生物膜破坏方法对口腔宏基因组的影响。

材料与方法

这是一项针对45名健康儿童的随机对照研究，将其分为三组。参与者3天不进行口腔清洁，然后进行10天的口腔清洁，方式如下：（1）每天用牙膏刷牙和清洁舌头两次（BT）；（2）每餐、吃零食和饮水后用食指擦牙龈和牙齿、清洁舌头并漱口（GIFTS）；或（3）每天用纳米炭进行两次GIFTS并清洁舌头（CT）（每组n = 15）。在第0天和第10天收集唾液、牙菌斑和舌刮样本，用于定量聚合酶链反应（qPCR）和新一代宏基因组学测序，以分析各组间微生物分类群的差异。

结果

与BT相比，GIFTS更显著地降低了唾液中的总细菌数量（P < 0.004），而BT降低总细菌数量的效果相对较弱（P < 0.02）。宏基因组学显示，与BT样本相比，GIFTS和CT舌样本中的厚壁菌门显著减少。BT和CT唾液样本中的奈瑟菌属物种比GIFTS唾液样本中的显著更多。在牙菌斑样本中，与BT和CT方法相比，GIFTS清洁显著减少了早期定植菌，包括血链球菌。

结论

在此，我们引入“频繁破坏生物膜”的概念以加强口腔卫生。GIFTS可用于预防儿童和成人生物膜的早期细菌定植和牙菌斑形成。与每天两次口腔清洁相比，频繁破坏生物膜能更有效地破坏早期细菌定植，且无磨损性，因此是常规刷牙的一种实用且简单的补充方法，有助于改善口腔卫生和预防疾病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc46/7523940/0c17b1aa5991/JISPCD-10-511-g001.jpg

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一种新颖、简单、频繁的口腔清洁方法可减少口腔微生物群中的有害细菌。

A Novel, Simple, Frequent Oral Cleaning Method Reduces Damaging Bacteria in the Dental Microbiota.

作者信息

机构信息

出版信息

AIM

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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