Structural modifications of the salivary conditioning film upon exposure to sodium bicarbonate: implications for oral lubrication and mouthfeel

The salivary conditioning film (SCF) that forms on all surfaces in the mouth plays a key role in lubricating the oral cavity. As this film acts as an interface between tongue, enamel and oral mucosa, it is likely that any perturbations to its structure could potentially lead to a change in mouthfeel...

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Veröffentlicht in:	Soft matter 2016-03, Vol.12 (1), p.2794-281
Hauptverfasser:	Ash, A, Wilde, P. J, Bradshaw, D. J, King, S. P, Pratten, J. R
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Conditioning Dental Pellicle - chemistry Dental Pellicle - drug effects Dental Pellicle - metabolism Durapatite - chemistry Durapatite - metabolism Elasticity - drug effects Exposure Female Humans Lubrication Male Middle Aged Mouth Oral hygiene Osmolar Concentration Saliva Saliva - chemistry Saliva - metabolism Salivary Proteins and Peptides - chemistry Salivary Proteins and Peptides - metabolism Sodium Bicarbonate - pharmacology Strength Viscosity - drug effects Young Adult
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description	The salivary conditioning film (SCF) that forms on all surfaces in the mouth plays a key role in lubricating the oral cavity. As this film acts as an interface between tongue, enamel and oral mucosa, it is likely that any perturbations to its structure could potentially lead to a change in mouthfeel perception. This is often experienced after exposure to oral hygiene products. For example, consumers that use dentifrice that contain a high concentration of sodium bicarbonate (SB) often report a clean mouth feel after use; an attribute that is clearly desirable for oral hygiene products. However, the mechanisms by which SB interacts with the SCF to alter lubrication in the mouth is unknown. Therefore, saliva and the SCF was exposed to high ionic strength and alkaline solutions to elucidate whether the interactions observed were a direct result of SB, its high alkalinity or its ionic strength. Characteristics including bulk viscosity of saliva and the viscoelasticity of the interfacial salivary films that form at both the air/saliva and hydroxyapatite/saliva interfaces were tested. It was hypothesised that SB interacts with the SCF in two ways. Firstly, the ionic strength of SB shields electrostatic charges of salivary proteins, thus preventing protein crosslinking within the film and secondly; the alkaline pH ( 8.3) of SB reduces the gel-like structure of mucins present in the pellicle by disrupting disulphide bridging of the mucins via the ionization of their cysteine's thiol group, which has an isoelectric point of 8.3. This study suggests that differences in the lubricative properties of saliva are more likely to be due to changes in the interfacial properties of the salivary conditioning film as opposed to changes in the bulk viscosity of saliva when exposed to sodium bicarbonate.
doi_str_mv	10.1039/c5sm01936b
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subjects	Adult Conditioning Dental Pellicle - chemistry Dental Pellicle - drug effects Dental Pellicle - metabolism Durapatite - chemistry Durapatite - metabolism Elasticity - drug effects Exposure Female Humans Lubrication Male Middle Aged Mouth Oral hygiene Osmolar Concentration Saliva Saliva - chemistry Saliva - metabolism Salivary Proteins and Peptides - chemistry Salivary Proteins and Peptides - metabolism Sodium Bicarbonate - pharmacology Strength Viscosity - drug effects Young Adult
title	Structural modifications of the salivary conditioning film upon exposure to sodium bicarbonate: implications for oral lubrication and mouthfeel
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