Dental Plaque Biofilms

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By: Anna Frutiger

Introduction

Structural representation of a dental plaque biofilm <4>


Dental plaque can be defined as a diverse community of microorganisms located on the tooth surface as a biofilm. The microorganisms bind tightly to one another in addition to the solid tooth surface by means of an extracellular matrix, consisting of polymers of both host and microbial origin [1][2]. Only recently has dental plaque begun to be considered a biofilm, which has further contributed to understanding periodontal disease and the best ways to prevent and control this in the future [3]. As a biofilm, dental plaque has an open architecture much like that of other biofilms, consisting of channels and voids, which help to achieve the flow of nutrients, waste products, metabolites, enzymes, and oxygen [4]. Because of this structure, a variety of microbial organisms can make up biofilms, including both aerobic and anaerobic bacteria. The microbial composition of dental biofilms include over 700 species of bacteria and archaea, which all exist in a relatively stable environment called microbial homeostasis [2]. Dental plaque biofilms are responsible for many of the diseases common to the oral cavity including dental caries, periodontitis, gingivitis, and the less common periimplantitis, however biofilms are also present on healthy teeth as well [5]. Because dental biofilms (and other biofilms) express an entirely different set of genes than free-floating bacteria, they are of particular interest to researchers and thus much is currently being done to explore the diverse nature of these microbial structures. The biofilm state brings about major changes in bacteria behavior such as interactions with each other and the host, and their response to environmental conditions [5]. Because of these changes, much of the research being done now is in relationship to plaque-related diseases and other health issues within the oral cavity. This is of major concern to the medical community, because it is being realized that oral pathologies have a major impact not only on the health of the oral cavity, but also on the overall health of the human body.

Formation of Dental Biofilms


The formation of dental plaque biofilms includes a series of steps that preferentially form at stagnant sites providing protection from the forces of removal. Plaque biofilms can exist on a variety of surfaces including fissues, smooth surfaces and gingival crevices, however they are most likely to be seen in their mature state in fissures and crevices, as these places are more difficult to reach with biofilm removal tools, like a toothbrush [1][5].

The first step in plaque biofilm development is the adsorption of host and bacterial molecules to the tooth surface. Within minutes of tooth eruption or a cleaning, pellicle formation begins, which is a thin coat of salivary proteins [3]. This surface acts like an adhesive by adhering to the tooth surface and encouraging a conditioning film of bacteria to attach to the pellicle[1]. This conditioning film directly influences the initial microbial colonization, and continues to adsorb bacteria to the tooth surface.

Following pellicle formation, there is passive transport of oral bacteria to the tooth surface, which involves a reversible adhesion process [2]. By using weak, long-range physicochemical interactions between the pellicle coated tooth surface and the microbial cell surface, an area of weak attraction is formed that encourages the reversible adhesion [1]. This reversible adhesion then leads to a much stronger, irreversible attachment, as short-range interactions between specific molecules on the bacterial cells and the complementary receptor proteins on the pellicle surface occur. Because many oral bacteria have multiple adhesion types on their cell surface, they can thus participate in a plethora of interactions with both other bacteria and with the host surface molecules [1].

Section 2


Include some current research in each topic, with at least one figure showing data.

Section 3


Include some current research in each topic, with at least one figure showing data.

Conclusion


Overall paper length should be 3,000 words, with at least 3 figures.

References

(1) Marsh, P.D. "Dental Plaque as a Microbial Biofilm." Caries Research. 2004. Volume 38. p.204-211. http://content.karger.com/produktedb/produkte.asp?typ=fulltext&file=CRE2004038003204

(2) Marsh, P.D. "Dental plaque as a biofilm and a microbial community - implications for health and disease." BMC Oral Health. 2006. 6(Suppl 1): S14. http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=2147593

(3) Nield-Gehrig, J. S. "Dental Plaque Biofilms." Dental Plaque Biofilms. http://www.dentalcarestamford.com/pdf/Denta%20Plaque%20Biofilms.pdf

(4) Overman, P. R. "Biofilm: A New View of Plaque." The Journal of Contemporary Dental Practice. 2000. Volume 1. No. 3. P. 018. http://www.thejcdp.com/issue003/overman/01over.htm

(5) Sbordone, L., Bortolaia, C. "Oral microbial biofilms and plaque-related diseases: microbial communities and their role in the shift from oral health to disease." Clin Oral Invest. 2003. Volume 7. P. 181-188. http://www.springerlink.com/content/25m9v7f8928h6gj3/

Edited by student of Joan Slonczewski for BIOL 238 Microbiology, 2009, Kenyon College.