Johanna Tanner scite author profile

The use of fiber-reinforced composites (FRC) in dentistry has increased during recent years. In marginal areas of crowns and removable partial dentures the fibers may become exposed and come into contact with oral tissues, saliva, and microbes. To date, few articles have been published on oral microbial adhesion to FRCs. The aim of this study was to compare different FRCs, their components, and conventional restorative materials with respect to S. mutans ATCC 21752 adhesion and adsorption of specific S. mutans binding proteins. Surface roughness of the materials was also determined. Four different FRCs, a restorative composite, and a high-leucite ceramic material were studied. Polyethylene FRC was found to be significantly rougher than all other materials. Aramid FRC also showed higher surface roughness in comparison with all materials but polyethylene FRC. Without a saliva pellicle, adhesion of S. mutans coincided with surface roughness and polyethylene and aramid FRC promoted S. mutans adhesion better than the other smoother materials. In the presence of salivary pellicle, ceramic and polyethylene FRC bound more bacteria than the other materials studied. Higher quantities of S. mutans binding proteins in the pellicles may in part account for the higher S. mutans adhesion to saliva-coated ceramic and polyethylene FRC.

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Restoration of myofiber continuity after transection injury in the rat soleus

Äärimaa

Kääriäinen

Vaittinen

et al. 2004

Neuromuscular Disorders

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Johanna Tanner

Flexural properties of fiber reinforced root canal posts

The anisotropicity of the flexural properties of an occlusal device material processed by stereolithography

Five-year survival of 3-unit fiber-reinforced composite fixed partial dentures in the posterior area

Adsorption of parotid saliva proteins and adhesion of Streptococcus mutans ATCC 21752 to dental fiber‐reinforced composites

Restoration of myofiber continuity after transection injury in the rat soleus

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