Dental Wings CAD/CAM system precision: an internal and marginal fit sperimental analisys. Statement of problem. The CAD-CAM technology has been developed to design and manufacture prosthetic structures with constant quality characteristics; in fact procedures are codified, manageable and repeatable. Purpose. The purpose of this in vitro study is to evaluate the internal and marginal gap of zirconia casts made with a new CAD-CAM systematic that use Dental Wings laser scanner and Yenamak milling machine. Material and methods. 6 analogs of solid abutments of Straumann implants were used, fixed in plexiglass bases. The samples were scanned by Dental Wings laser; the file obtained by scanning of each probe was sent to the Yenamak D40 milling machine, then the casts were sintered in Protherm furnace. Then 6 samples were cemented with resin luting agent capsules (Relyx Unicem, 3M ESPE). The samples were incorporated in transparent epoxy resin. After resin hardening, the cylinders obtained were cut with a microtomes. These slices thus obtained were then polished with a Polisher sander with alumina dust decreasing grain. Each section was observed and photographed in reflected light with the aid of an optic microscope type, first at low magnification and then at higher magnification. Results. The overall average fitting of copings on the abutments was 32,87 μ. No differences were found in marginal fit on buccal and lingual sides, it was easily predictable because of the standard form of the used stumps. The recorded values for the marginal fit were lower than those of axial walls. The accuracy of adaptation was always achieved within the limits of clinical acceptability. Conclusions. Within the limitations of this study, the system evaluated represents a valuable alternative to conventional prosthetic rehabilitation techniques
Sannino, G., Gloria, F., Schiavetti, R., Ottria, L., Barlattani, A. (2009). Dental wings cad/cam system precision: an internal and marginal fit sperimental analisys. ORAL & IMPLANTOLOGY, 2(3), 11-20.
Dental wings cad/cam system precision: an internal and marginal fit sperimental analisys
OTTRIA, LILIANA;BARLATTANI, ALBERTO
2009-09-01
Abstract
Dental Wings CAD/CAM system precision: an internal and marginal fit sperimental analisys. Statement of problem. The CAD-CAM technology has been developed to design and manufacture prosthetic structures with constant quality characteristics; in fact procedures are codified, manageable and repeatable. Purpose. The purpose of this in vitro study is to evaluate the internal and marginal gap of zirconia casts made with a new CAD-CAM systematic that use Dental Wings laser scanner and Yenamak milling machine. Material and methods. 6 analogs of solid abutments of Straumann implants were used, fixed in plexiglass bases. The samples were scanned by Dental Wings laser; the file obtained by scanning of each probe was sent to the Yenamak D40 milling machine, then the casts were sintered in Protherm furnace. Then 6 samples were cemented with resin luting agent capsules (Relyx Unicem, 3M ESPE). The samples were incorporated in transparent epoxy resin. After resin hardening, the cylinders obtained were cut with a microtomes. These slices thus obtained were then polished with a Polisher sander with alumina dust decreasing grain. Each section was observed and photographed in reflected light with the aid of an optic microscope type, first at low magnification and then at higher magnification. Results. The overall average fitting of copings on the abutments was 32,87 μ. No differences were found in marginal fit on buccal and lingual sides, it was easily predictable because of the standard form of the used stumps. The recorded values for the marginal fit were lower than those of axial walls. The accuracy of adaptation was always achieved within the limits of clinical acceptability. Conclusions. Within the limitations of this study, the system evaluated represents a valuable alternative to conventional prosthetic rehabilitation techniquesI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.