L. Fano scite author profile

L. Fano

4Publications

37Citation Statements Received

75Citation Statements Given

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Affiliations

University of Parma, Istituto Nazionale per la Fisica della Materia

Publications

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Hydrolytic degradation and cracks in resin‐modified glass‐ionomer cements

Fano

et al. 2004

J Biomed Mater Res

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Water-absorption affects the basic properties of resin-modified glass-ionomer cements (RMGICs). Fick's law is usually invoked to explain the absorption process. The purpose of this study is to show that the absorption in accordance with the Fickian model cannot be extended to the whole of the specimen, and that microcrack formation is the main degradation mechanism for specimens cured in a closed environment. For this purpose, flat disk-shaped paste specimens 1.5 mm thick (aspect ratio 4), irradiated in closed conditions between two glass slides and stored in water for approximately 20 months, were analyzed periodically gravimetrically and under confocal fluorescence microscopy, with absorbed eosin used as the fluorescent probe. At pH 7.0, the specimen surface (10-20 micrometers in depth) absorbed water rapidly, swelled, and disintegrated in 20-40 days. Long-term storage produced isolated cracks and grains, no progress in the swelling, and a slow weight decrease. A lower pH (pH 3.5) produced a significant increase of the number of microcracks. The decrease in the irradiation time (30 s or less) enhanced the erosion process, producing very broad cracks. It was concluded that the prevalent mechanism of long-term hydrolytic degradation was based on the slow formation of cracks, whereas only in the early stage of storage did absorption occur quickly in accordance with the Fickian diffusion.

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Polymerization of dental composite resins using plasma light

Fano

Marcoli

et al. 2002

Biomaterials

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Structure of dental glass-ionomer cements by confocal fluorescence microscopy and stereomicroscopy

Fano

et al. 2001

Biomaterials

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Adhesiveness of dental resin‐based restorative materials investigated with atomic force microscopy

Fano

et al. 2005

J Biomed Mater Res

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This study aimed to show that the polymerization contraction of dental methacrylate-based materials, when used as adhesives on hard substrate, produces voids at the material-substrate interface. This phenomenology is closely related with the nanoleakage and the sealing ability of these materials. One prime/bond system, three restorative composite resins, and one orthodontic bonding system were cured by using mirror-like glass slides as a compliance-free reference substrate. The adhesive surface was analyzed by atomic force microscopy, and the polymerization contraction of bulk material was tested by laser beam-scanning method. Nanoperiodic structure of three-dimensional (3D) images, section analysis, and roughness characteristics (R(a) and R(z)) indicated that polymerization contraction produced voids at the interface. When the adhesive surface was exposed to oral simulating fluids (water, ethanol, and lactic acid solutions), hydrolytic degradation involved some hundreds of nanometers in depth. In visible light-cured (VLC) materials, the interface porosity decreased when an irradiation pause ( approximately 2 min) was carried out during gelation.

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L. Fano

Hydrolytic degradation and cracks in resin‐modified glass‐ionomer cements

Polymerization of dental composite resins using plasma light

Structure of dental glass-ionomer cements by confocal fluorescence microscopy and stereomicroscopy

Adhesiveness of dental resin‐based restorative materials investigated with atomic force microscopy

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