Protective effect of the in situ pellicle on dentin erosion–an ex vivo pilot study

• Published in: Archives of oral biology Vol. 52; no. 5; pp. 444 - 449
• Main Authors: Hannig, Christian, Becker, Klaus, Häusler, Nico, Hoth-Hannig, Wiebke, Attin, Thomas, Hannig, Matthias
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.05.2007
• Subjects: Adult; Advanced Basic Science; Animals; Calcium; Calcium - analysis; Cattle; Dental Pellicle - physiology; Dental Pellicle - ultrastructure; Dentin; Dentin - pathology; Dentin - ultrastructure; Dentistry; Erosion; Humans; Hydrochloric Acid - adverse effects; Male; Microscopy, Electron, Transmission; Pellicle; Permeability; Photometry; Pilot Projects; Protective Agents; Solubility; Time Factors; Tooth Erosion - metabolism; Tooth Erosion - pathology; Dentin; Pellicle; Calcium; Erosion
• ISSN: 0003-9969; 1879-1506
• DOI: 10.1016/j.archoralbio.2006.10.015

The acquired pellicle is well known as an anti-erosive proteinaceous layer on enamel, but its protective properties on dentin have not been investigated in detail until now. The aim of the present ex vivo study was to evaluate the erosive effects on pellicle coated dentin. Bovine dentin slabs were exposed to the oral cavity of one subject for 120 min for in situ pellicle formation. Subsequently, the slabs were incubated with HCl (pH 2.3) in vitro for 5 min and erosive calcium-release was measured photometrically. In addition, the acid treated specimens were evaluated by transmission electron microscopy (TEM). Pellicle free samples served as controls. Calcium erosion from the pellicle coated dentin slabs amounted to 23.5 ± 2.9 μg Ca/min (pellicle free samples: 32.2 ± 4.2 μg Ca/min). The difference was statistically significant ( p ≤ 0.05). In pellicle coated as well as in uncoated dentin samples, TEM-evaluation showed a demineralised dentinal surface layer which thickness ranged between 3 and 6 μm. The pellicle itself was partially dissolved but not removed by hydrochloric acid treatment. The protective properties of the acquired pellicle against an erosive challenge of the dentinal surface are limited. The dentinal pellicle functions like an ion permeable network rather than a barrier.