Effects of Amine Fluoride on Biofilm Growth and Salivary Pellicles

The amine fluoride (AmF) N′-octadecyltrimethylendiamine-N,N,N′-tris(2-ethanol)-dihydrofluoride is a cationic antimicrobial which can have beneficial effects on plaque formation. Here, we determine changes in pellicle and bacterial cell surface properties of the strains Actinomyces naeslundii HM1, Streptococcus mutans NS, S.mutans ATCC 700610, S. sobrinus HG1025 and S. oralis HM1 upon adsorption of this AmF and accompanying effects on bacterial adhesion and biofilm growth. In vitro pellicles had a zeta potential of –12 mV that became less negative upon adsorption of AmF. The chemical functionalities in which carbon and oxygen were involved changed after AmF adsorption and AmF-treated pellicles had a greater surface roughness than untreated pellicles. Water contact angles in vitro decreased from 56 to 45° upon AmF treatment, which corresponded with water contact angles (44°) measured intraorally on the front incisors of volunteers immediately after using an AmF-containing toothpaste. All bacterial strains were negatively charged and their isoelectric points (IEP) increased upon AmF adsorption. Minimal inhibitory concentrations were smallest for strains exhibiting the largest increase in IEP. Adhesion to salivary pellicles and biofilm growth of the mutans streptococcal strains were significantly reduced after AmF treatment, but not of A. naeslundii or S. oralis. However, regardless of the strain involved, biofilm viability decreased significantly after AmF treatment. The electrostatic interaction between cationic AmF and negatively charged bacterial cell surfaces is pivotal in establishing reduced biofilm formation by AmF through a combination of effects on initial adhesion and killing. The major effect of AmF treatment, however, was a reduction brought about in biofilm viability.

[1]  H. C. van der Mei,et al.  Resistance to a polyquaternium-1 lens care solution and isoelectric points of Pseudomonas aeruginosa strains. , 2006, The Journal of antimicrobial chemotherapy.

[2]  D. J. White,et al.  A method to study sustained antimicrobial activity of rinse and dentifrice components on biofilm viability in vivo. , 2006, Journal of clinical periodontology.

[3]  Y. Takeuchi,et al.  Anti-plaque agents in the prevention of biofilm-associated oral diseases. , 2003, Oral diseases.

[4]  R. Weiger,et al.  Comparison of antiadhesive and antibacterial effects of antiseptics on Streptococcus sanguinis. , 2003, European journal of oral sciences.

[5]  D. J. White,et al.  Influence of dentifrices and dietary components in saliva on wettability of pellicle-coated enamel in vitro and in vivo. , 2002, European journal of oral sciences.

[6]  S. Márton,et al.  Effect of Amine Fluoride Toothpaste and Gel in High Risk Groups of Hungarian Adolescents: Results of a Longitudinal Study , 2002, Caries Research.

[7]  D. J. White,et al.  Hexametaphosphate effects on tooth surface conditioning film chemistry--in vitro and in vivo studies. , 2002, The Journal of clinical dentistry.

[8]  M. Wilson,et al.  Amine and tin fluoride inhibition of Streptococcus sanguis adhesion under continuous flow. , 2001, Oral microbiology and immunology.

[9]  C. A. Francis,et al.  Precipitation of specific proteins by freeze-thawing of human saliva. , 2000, Archives of oral biology.

[10]  D. Steinberg,et al.  In vitro assessment of the antimicrobial activity of a local sustained release device containing amine fluoride for the treatment of oral infectious diseases. , 1998, Diagnostic microbiology and infectious disease.

[11]  D. Steinberg,et al.  Relation between surface activity and antibacterial activity of amine-fluorides , 1996 .

[12]  H. Busscher,et al.  Clinical effects of commercially available mouthrinses on the development of plaque, gingivitis and enamel surface free energy , 1991 .

[13]  C. Dawes,et al.  Estimation of the Velocity of the Salivary Film at Some Different Locations in the Mouth , 1989, Journal of dental research.

[14]  J. Meurman Effect of sodium and amine fluoride treatment on adsorption and ultrastructure of S. mutans and S. sanguis. , 1987, Scandinavian journal of dental research.

[15]  H. Busscher,et al.  Effect of topically applied fluoride solutions on the surface free energy of pellicle-covered human enamel. , 1984, Caries research.