Correction to: A review on anti-adhesion therapies of bacterial diseases
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Correction to: Infection https://doi.org/10.1007/s15010-018-1222-5.
Examples of anti-adhesion studies as inhibitors bacterial pathogens
Material group or anti-adhesion | Anti-adhesive mechanism | Year | Location | Authors | Animal | References |
---|---|---|---|---|---|---|
Multivalent adhesion molecule (MAM7) coupled to polystyrene microbeads | Blocking pilus assembly or function in P. aeruginosa | 2017 | Birmingham | Roberts et al. | In vivo rat model | [87] |
PilQ/PilA antigen of P. aeruginosa (vaccine) | Anti-pili in P. aeruginosa | 2017 | Iran | Gholami et al. | In vivo mouse model | [88] |
Chitosans | Inhibition of the growth and adhesion of human uropathogens | 2017 | Italy | Campana et al. | In vitro | [89] |
Salvianolic acid B | Anti-pili of N. meningitidis | 2016 | Finland | Huttunen | In vitro | [90] |
Quercetin-mediated nanoparticles | Anti-adhesive activity against B. subtilis biofilm | 2016 | Egypt | Raie et al. | In vitro | [91] |
Phaleria macrocarpa | Anti-adhesion and anti-biofilm agent against S. mutans | 2015 | Malaysia | Heana et al. | In vitro | [92] |
Essential oils (EOs) | Anti-adhesive potential against a foodborne pathogen Salmonella strain | 2015 | Tunisia | Miladi et al. | In vitro | [93] |
Monoclonal antibody | Against pneumococcal type I pilus (RrgA) | 2015 | Italy | Amerighi et al. | In vitro | [94] |
Designed peptides | Blocking the binding of AAF-II EAEC | 2015 | India | Gupta et al. | In vitro | [95] |
Calixarene-based glycoclusters | Anti-adhesive of P. aeruginosa | 2014 | France | Boukerb et al. | In vivo mouse model | [96] |
Cranberry bioactives | P-fimbrial of E. coli | 2013 | Not determined | Kaspar et al. | Ex vivo | [97] |
Synthetic-mannosides | FimH of E.coli | 2013 | Germany | Fessele et al. | In vitro | [98] |
Flavonoid rich extract of Glycyrrhiza glabra (GutGard) | H. pylori (inhibit DNA gyrase, dihydrofolate reductase, protein synthesis) | 2012 | India | Asha et al. | In vitro | [99] |
S-carboxymethylcysteine (S-CMC) | Reducing the expression of host receptors for S. pneumoniae | 2011 | Japan | Sumitomo et al. | In vitro | [100] |
High molecular weight coffee components | Inhibiting the ability of S. mutans | 2010 | Italy | Stauder et al. | In vitro | [101] |
Cranberry | P-fimbriae of E. coli | 2010 | France | Howell et al. | ex-vivo/in vivo | [102] |
Lactobacillus rhamnosus GG | Reduction of adhesion and cytotoxicity of S. Typhimurium | 2009 | USA | Burkholder et al. | In vitro | [103] |
Wine components | Anti-adhesion and anti-biofilm activity against S. mutans | 2009 | Italy | Daglia et al. | In vitro/ex vivo | [104] |
Sialyloligosaccharides (SOS) | Inhibition of V. cholerae toxin (Ctx) binding to GM1-OS | 2009 | United Kingdom | Sinclair et al. | In vitro | [105] |
Monosaccharide | Inhibition of adherence by P. aeruginosa to canine corneocytes | 2008 | England | McEwan et al. | In vivo | [106] |
Ceramic-composite | S. mutans | 2007 | Germany | Rosentritt et al. | In vitro | [107] |
The original article has been corrected.