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Deposition of Oral Bacteria and Polystyrene Particles to Quartz and Dental Enamel in a Parallel Plate and Stagnation Point Flow Chamber
Authors:Yang   Bos   Belder   Engel   Busscher
Affiliation:a Department of Biomedical Engineering, University of Groningen, Bloemsingel 10, 9712 KZ, Groningen, The Netherlands;b Philips Research Laboratories, Professor Holstlaan 4, 5656 AA, Eindhoven, The Netherlands;c Centre for Quantitative Methods (CQM), Building HCZ-3, P.O. Box 414, 5600 AK, Eindhoven, The Netherlands
Abstract:The aim of this paper is to determine to what extent (i) deposition of oral bacteria and polystyrene particles, (ii) onto quartz and dental enamel with and without a salivary conditioning film, (iii) in a parallel plate (PP) and stagnation point (SP) flow chamber and at common Peclet numbers are comparable. All three bacterial strains showed different adhesion behaviors, and even Streptococcus mitis BMS, possessing a similar cell surface hydrophobicity as polystyrene particles, did not mimic polystyrene particles in its adhesion behavior, possibly as a result of the more negative ζ potentials of the polystyrene particles. The stationary endpoint adhesion of all strains, including polystyrene particles, was lower in the presence of a salivary conditioning film, while also desorption probabilities under flow were higher in the presence of a conditioning film than in its absence. Deposition onto quartz and enamel surfaces was different, but without a consistent trend valid for all strains and polystyrene particles. It is concluded that differences in experimental results exist, and the process of bacterial deposition to enamel surfaces cannot be modeled by using polystyrene particles and quartz collector surfaces.
Keywords:deposition   parallel plate flow chamber   stagnation point flow chamber   bacteria   polystyrene particles   convective-diffusion   pair distribution function
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