[Prevention of cariogenic dental plaque. Study of the structures implicated in the adhesion and coaggregation in Streptococcus mutans and Streptococcus sobrinus]. / Prévention de la plaque dentaire cariogène étude des structures impliquées dans l'adhésion et la coagrégation chez Streptococcus mutans et Streptococcus sobrinus.

Cariogenic dental plaque may be assimilated to a biofilm resulting from the adhesion of S. mutans, then from the coaggregation of other streptococci, or other genus. We used a static monospecific biofilm model. Supports or bacteria were treated with inhibitors before adhesion in order to clarify the nature of adhesins responsible for the primary adhesion of S. mutans and S. sobrinus on Tygon. To determine the bindings of coaggregation, inhibitors were applied on one-day-old biofilms. Analysis of effects were performed by automatic inoculator Spiral (Interscience) for microbiological methods, and by SEM JEOL 5400 LV for microscopic methods. In the aim of preventing adhesion and coaggregation, different traps were assayed:sugars, chemical inhibitors such as F- and EDTA salts. Of these, only the latter showed efficiency. This confirmed the role of bivalent mineral ions and electrostatic attraction forces in the adhesion and coaggregation of streptococci.

[Synergism of the combination of enzymes or surfactants and a phenolic disinfectant on a bacterial biofilm]. / Synergie de l'association d'enzymes ou de surfactants et d'un désinfectant phénolique sur un biofilm bactérien.

Disrupting bacterial biofilms is necessary for a wide application domains such as reusable medical devices, or systems of pipes for water or fluids in cosmetics, food and chemicals industry. Bacterial cells embedded in a biofilm are less susceptible to disinfectants than suspended cells. This property is referable to the structure of the biofilm itself. The gangue of exopolymers and the thickness of a 5-day-old biofilm of Escherichia coli (more than 200 layers of bacteria), contribute to this decrease of susceptibility. The present work deals with the release of an Escherichia coli biofilm by the sequential action of enzymes and a phenolic disinfectant on the one hand, and by the sequential or simultaneous action of surfactants and the previous disinfectant on the other hand. The decrease of bacteria count per mm2 and the Scanning Electron Microscope observations exhibited a synergic action in every case. Nevertheless, Escherichia coli biofilms quickly reconstructed even after exposition to the previous treatment.

Antiseptic activity of some antidental plaque chemicals on Streptococcus mutans biofilms.

S. mutans is one of the bacterial species involved in the initiation of cariogenic dental plaque. In situ, antiseptic activity evaluation of dental plaque chemicals is fairly difficult. A dynamic biofilm model of S. mutans on Tygon support is suitable for the quantification of antiseptic activity and the comparison of commercial chemical formulations, submitted or not to the french standards and Pharmacopea. Some of these chemicals, especially quaternary ammonia solutions, do not reduce living bacteria counts by 10E5 as AFNOR specifies. In the case of dental plaque, antiseptic activity is probably not the only relevant parameter: biofilm dissociation is rather more relevant because the dead or living bacteria adhere to the teeth, favouring the establishment of a new active biofilm. Two proceedings can be followed: support surface can be modified, or bacteria exopolymers synthesis can be inhibited to prevent cell adherence; the disruption of the biofilm glycocalyx can be achieved with enzymes or surfactants.

[Comparison of the activity against Streptococcus mutans of a chlorhexidine-based antiseptic as a suspension or as a biofilm]. / Comparaison de l'activité d'un antiseptique à base de chlorhexidine sur Streptococcus mutans en suspension et en biofilm.

When bacteria colonize a surface they form a biofilm whose susceptibility to anti-microbials is different from that of the same bacterial species forming a homogeneous suspension in a liquid. This study investigated colonization of an inert solid phase (Tygon) with Streptococcus mutans ATCC 25,175--one of the strains involved in the initiation of cariogenic dental plaque--in a continuous flow of fresh medium sufficiently diluted so as to preclude growth of suspended bacteria. Only those bacteria which adhered to the solid phase grew, forming a biofilm. The antiseptic activity of Eludril (0.1% chlorhexidine) on this biofilm under dynamic (flowing medium) and static (stagnant medium) conditions was studied by comparison with the same strain in a suspension (in compliance with the AFNOR NF T 72-150 norm) and in a confluent culture on a filtering membrane. The biofilm was less susceptible under dynamic than under static conditions; under both conditions, the biofilm was less susceptible than the suspension. According to this model, the concentration of antiseptic recommended by the manufacturer according to studies using AFNOR norm NF T 72-150 (bacteria in a suspension) may be inadequate for bacteria adhering to tooth surfaces or gingival mucosa.