Plaque Biofilms: the Effect of Chemical Environment on Natural Human Plaque Biofilm Architecture

Overview

Journal Arch Oral Biol

Specialty Dentistry

Date 2006 Jun 30

PMID 16806048

Citations 13

Authors

C Robinson

S Strafford

G Rees

S J Brookes

J Kirkham

R C Shore

P S Watson

S Wood

Affiliations

Soon will be listed here.

Abstract

The architecture of microbial biofilms especially the outer regions have an important influence on the interaction between biofilm and local environment particularly on the flux of materials into and out of biofilm compartments and as a consequence, biofilm metabolic behaviour. In the case of dental plaque biofilms, architecture will determine access of nutrients including acidogenic substrates and therapeutic materials to the microbial biomass and to the underlying tooth surface. Manipulation of this architecture may offer a means of altering mass transfer into the whole biofilm and biomass and raises the possibility of improving access of therapeutics. Plaque biofilms formed in vivo on human enamel were subjected to a number of different chemical conditions while under observation by confocal laser scanning microscopy in reflection mode. In this way the outer 50-100 microm or so of the biofilms was examined. Density and distribution of biomass were recorded as degree of reflectance. The amount and density of biofilm biomass increased from the plaque saliva interface towards the interior. Plaque biofilms were robust and little affected by mechanical manipulation, high ionic strength or low pH (2.5). Detergent (SLS), however, often appeared to either remove biomass and/or dramatically reduce its density.

Citing Articles

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