In vitro streptococcal adherence on prosthetic and implant materials. Interactions with physicochemical surface properties

In vitro streptococcal adherence on prosthetic and implant materials. Interactions with physicochemical surface properties

summary  The aim of this study was to evaluate streptococcal adherence to eight currently used prosthetic and implant materials, and enamel samples, after a salivary coating and to investigate the influence of substrata surface free energy (SFE) and its polar and non‐polar components, as well as bac...

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Bibliographic Details
Published in:Journal of oral rehabilitation Vol. 31; no. 2; pp. 140 - 148
Main Authors: Sardin, S., Morrier, J.-J., Benay, G., Barsotti, O.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Science Ltd 01-02-2004
Subjects:
bacterial adhesion
Bacterial Adhesion - physiology
Dental Enamel - microbiology
Dental Implants - microbiology
Dental Materials
Dentistry
Humans
hydrophobicity
implant
prosthetic
Saliva
Streptococcus
Streptococcus - physiology
Streptococcus mitis - physiology
Streptococcus oralis - physiology
surface free energy
Surface Properties
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Summary:summary  The aim of this study was to evaluate streptococcal adherence to eight currently used prosthetic and implant materials, and enamel samples, after a salivary coating and to investigate the influence of substrata surface free energy (SFE) and its polar and non‐polar components, as well as bacterial surface characteristics, on bacterial adherence. Our results indicate a moderate hydrophobic character of saliva‐coated surfaces and a pronounced basic character of the polar component of SFE values, except for one substrata. The lowest colonization was observed with enamel samples and the lowest values of adherent bacteria on the different substrata were observed with the hydrophilic bacterial strain. Both the nature of the substrata and the nature of the bacterial strains could have an effect on the extent of bacterial adhesion. When the interrelationship between the number of adherent bacteria and the surface properties of bacteria and substrata were analysed, bacterial adherence correlated with the non‐polar component of substrata SFE (r = 0·8, P = 0·02) and with the adhesion to the solvents (r = 0·8, P < 0·0001). These results are consistent with the thermodynamic theory and underline the importance of acid–base characteristics of the cell surface when one is studying bacterial adherence on dental casting alloys and implant materials.
Bibliography:istex:6257E634D4C4AE3DE3461C989077F9ECDBD0457E
ark:/67375/WNG-TRWZJ93M-Z
ArticleID:JOOR1136
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0305-182X
1365-2842
DOI:10.1046/j.0305-182X.2003.01136.x