Aharoni R, Bronstheyn M, Jabbour A, Zaks B, Srebnik M, Steinberg D (2008). Oxazaborolidine derivatives inducing autoinducer-2 signal transduction in Vibrio harveyi. Bioorg Med Chem16:1596–1604.
2.
Bellini HT, Arneberg P, von der Fehr FR (1981). Oral hygiene and caries. A review. Acta Odontol Scand39:257–265.
3.
Bretz WA, Corby PM, Schork NJ, Robinson MT, Coelho M, Costa S, et al. (2005). Longitudinal analysis of heritability for dental caries traits. J Dent Res84:1047–1051.
4.
Broadbent JM, Thomson WM, Poulton R (2008). Trajectory patterns of dental caries experience in the permanent dentition to the fourth decade of life. J Dent Res87:69–72.
5.
Ccahuana-Vásquez RA, Tabchoury CP, Tenuta LM, Del Bel Cury AA, Vale GC, Cury JA (2007). Effect of frequency of sucrose exposure on dental biofilm composition and enamel demineralization in the presence of fluoride. Caries Res41:9–15.
6.
Chambless JD, Hunt SM, Stewart PS (2006). A three-dimensional computer model of four hypothetical mechanisms protecting biofilms from antimicrobials. Appl Environ Microbiol72:2005–2013.
7.
Cheng KK, Chalmers I, Sheldon TA (2007). Adding fluoride to water supplies. BMJ335:699–702.
8.
Costerton JW, Lewandowski Z, Caldwell DE, Korber DR, Lappin-Scott HM (1995). Microbial biofilms. Annu Rev Microbiol49:711–745.
9.
Duggal MS, Toumba KJ, Amaechi BT, Kowash MB, Higham SM (2001). Enamel demineralization in situ with various frequencies of carbohydrate consumption with and without fluoride toothpaste. J Dent Res80:1721–1724.
10.
Featherstone JD (2004). The continuum of dental caries—evidence for a dynamic disease process. J Dent Res83(Spec Iss C):C39–C42.
11.
Gilbert P, Das J, Foley I (1997). Biofilm susceptibility to antimicrobials. Adv Dent Res11:160–167.
12.
Guha-Chowdhury N, Iwami Y, Yamada T, Pearce EI (1995). The effect of fluorhydroxyapatite-derived fluoride on acid production by streptococci. J Dent Res74:1618–1624.
13.
Helmerhorst EJ, Hodgson R, van ‘t Hof W, Veerman EC, Allison C, Nieuw Amerongen AV (1999). The effects of histatin-derived basic antimicrobial peptides on oral biofilms. J Dent Res78:1245–1250.
14.
Hillman JD, Socransky SS (1987). Replacement therapy of the prevention of dental disease. Adv Dent Res1:119–125.
15.
Hugoson A, Koch G, Göthberg C, Helkimo AN, Lundin SA, Norderyd O, et al. (2005). Oral health of individuals aged 3–80 years in Jönköping, Sweden during 30 years (1973–2003). II. Review of clinical and radiographic findings. Swed Dent J29:139–155.
16.
Kara D, Luppens SB, Cate JM (2006). Differences between single- and dual-species biofilms of Streptococcus mutans and Veillonella parvula in growth, acidogenicity and susceptibility to chlorhexidine. Eur J Oral Sci114:58–63.
17.
Koo H, Schobel B, Scott-Anne K, Watson G, Bowen WH, Cury JA, et al. (2005). Apigenin and tt-farnesol with fluoride effects on S. mutans biofilms and dental caries. J Dent Res84:1016–1020.
18.
Levy SB (2001). Antibacterial household products: cause for concern. Emerg Infect Dis7(3 Suppl):512S–515S.
19.
Loesche WJ (1979). Clinical and microbiological aspects of chemotherapeutic agents used according to the specific plaque hypothesis. J Dent Res58:2404–2412.
20.
Luppens SB, Kara D, Bandounas L, Jonker MJ, Wittink FR, Bruning O, et al. (2008). Effect of Veillonella parvula on the antimicrobial resistance and gene expression of Streptococcus mutans grown in a dual-species biofilm. Oral Microbiol Immunol23:183–189.
21.
Marsh PD (2003). Are dental diseases examples of ecological catastrophes? Microbiology149(Pt 2):279–294.
22.
Marsh PD, Bradshaw DJ (1997). Physiological approaches to the control of oral biofilms. Adv Dent Res11:176–185.
23.
Näse L, Hatakka K, Savilahti E, Saxelin M, Pönkä A, Poussa T, et al. (2001). Effect of long-term consumption of a probiotic bacterium, Lactobacillus rhamnosus GG, in milk on dental caries and caries risk in children. Caries Res35:412–420.
24.
Øgaard B (2000). Oral microbiological changes, long-term enamel alterations due to decalcification, and caries prophylactic aspects. In: Orthodontic materials. Scientific and clinical aspects. Brantley WA, Eliades T, editors. Stuttgart: Thieme, pp 123–124.
25.
Paes Leme AF, Koo H, Bellato CM, Bedi G, Cury JA (2006). The role of sucrose in cariogenic dental biofilm formation—new insight. J Dent Res85:878–887.
26.
ten Cate JM (1990). In vitro studies on the effects of fluoride on de- and remineralization. J Dent Res69:614–619.
27.
ten Cate JM (1999). Current concepts on the theories of the mechanism of action of fluoride. Acta Odontol Scand57:325–329.
28.
ten Cate JM (2006). Biofilms, a new approach to the microbiology of dental plaque. Odontology94:1–9.
29.
Twetman S, Stecksén-Blicks C (2008). Probiotics and oral health effects in children. Int J Paediatr Dent18:3–10.
30.
van Rijkom HM, Truin GJ, van ‘t Hof MA (1996). A meta-analysis of clinical studies on the caries-inhibiting effect of chlorhexidine treatment. J Dent Res75:790–795.
31.
Wade W (2002). Unculturable bacteria—the uncharacterized organisms that cause oral infections. J R Soc Med95:81–83.
32.
Wood SR, Kirkham J, Marsh PD, Shore RC, Nattress B, Robinson C (2000). Architecture of intact natural human plaque biofilms studied by confocal laser scanning microscopy. J Dent Res79:21–27.
33.
Wood SR, Metcalf D, Devine D, Robinson C (2006). Erythrosine is a potential photosensitizer for the photodynamic therapy of oral plaque biofilms. J Antimicrob Chemother57:680–684.
34.
Zaura-Arite E, van Marle J, ten Cate JM (2001). Conofocal microscopy study of undisturbed and chlorhexidine-treated dental biofilm. J Dent Res80:1436–1440.
