口腔疾病病因病机的生物膜模型研究。

Q2 Dentistry Monographs in Oral Science Pub Date : 2021-01-01 Epub Date: 2020-12-21 DOI:10.1159/000510197
Thomas Thurnheer, Pune Nina Paqué
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引用次数: 7

摘要

超过700种微生物栖息在口腔的复杂环境中。多年来,微生物一直在纯培养物中进行研究,这是一种高度人工的情况,因为微生物在自然生境中生长为复杂的生态,称为生物膜。它们类似于多细胞生物,其特点是它们在多细胞相互作用下的整体代谢活动。生物膜中的微生物比浮游生物中的微生物表达不同的基因,从而产生更高的抗菌剂抗性,不同的营养需求,或者产生低氧化还原电位,允许严格厌氧细菌在氧气存在下生长。到目前为止,文献中已经描述了多种体外生物膜模型。这里的主要重点将是在苏黎世开发的多物种生物膜批培养模型。标准的6种龈上生物膜模型被用于研究口腔生物膜的基本方面,如微生物的结构、社会行为、空间分布或扩散特性。许多与牙菌斑抑制相关的参数被测试,说明该模型预测抗菌剂体内效率的高可靠性。改进和进步导致10种牙龈下模型通常与人类牙龈上皮细胞结合,作为口腔先天免疫系统的一个组成部分,引发从细胞因子产生到细胞凋亡的各种细胞反应。总之,生物膜模型能够解决浮游生物单一培养无法研究的许多问题。苏黎世体外生物膜模型具有可重复性和可靠性,可用于基础研究,但也可用于使用培养技术无法解决的面向应用的问题。口腔生物膜的研究必然会导致对口腔微生物在健康和疾病中的作用的更现实的评估。在这方面,已经取得了实质性进展,但仍有更多需要探索的地方。
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Biofilm Models to Study the Etiology and Pathogenesis of Oral Diseases.

More than 700 microbial species inhabit the complex environment of the oral cavity. For years microorganisms have been studied in pure cultures, a highly artificial situation because microorganisms in natural habitats grow as complex ecologies, termed biofilms. These resemble multicellular organisms and are characterized by their overall metabolic activity upon multiple cellular interactions. Microorganisms in biofilms express different genes than their planktonic counterparts, resulting in higher resistance to antimicrobials, different nutritional requirements, or creation of a low redox potential allowing the growth of strictly anaerobic bacteria in the presence of oxygen. Multiple in vitro biofilm models have been described in the literature so far. The main emphasis here will be on multispecies biofilm batch culture models developed in Zurich. The standard 6-species supragingival biofilm model has been used to study basic aspects of oral biofilms such as structure, social behavior, and spatial distribution of microorganisms, or diffusion properties. Numerous parameters related to the inhibition of dental plaque were tested illustrating the high reliability of the model to predict the in vivo efficiency of antimicrobials. Modifications and advancements led to a 10-species subgingival model often combined with human gingival epithelial cells, as an integral part of the oral innate immune system, eliciting various cell responses ranging from cytokine production to apoptosis. In conclusion, biofilm models enable a multitude of questions to be addressed that cannot be studied with planktonic monocultures. The Zurich in vitro biofilm models are reproducible and reliable and may be used for basic studies, but also for application-oriented questions that could not be addressed using culture techniques. Oral biofilm research will certainly lead to a more realistic assessment of the role of microorganisms in the oral cavity in health and disease. In this respect, substantial progress has been made, but there is still more to explore.

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来源期刊
Monographs in Oral Science
Monographs in Oral Science Medicine-Medicine (all)
CiteScore
3.70
自引率
0.00%
发文量
21
期刊介绍: For two decades, ‘Monographs in Oral Science’ has provided a source of in-depth discussion of selected topics in the sciences related to stomatology. Senior investigators are invited to present expanded contributions in their fields of special expertise. The topics chosen are those which have generated a long-standing interest, and on which new conceptual insights or innovative biotechnology are making considerable impact. Authors are selected on the basis of having made lasting contributions to their chosen field and their willingness to share their findings with others.
期刊最新文献
Chapter 8: Risk Assessment: Considerations for Coronal Caries. Chapter 9.4: Operative Treatment and Monitoring of Coronal Caries in Daily Practice. Chapter 9.3: Current Concepts of Caries Removal in Daily Practice. Chapter 9.1: The Use of Fluorides in the Control of Coronal Caries. Chapter 6: Diagnostic Considerations regarding Coronal Caries.
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