Desajuste marginal e influencia na pre-carga de parafusos e nas tensões induzidas as fixações de pilares metaloplasticos sobre-fundidos / Marginal misfit and influence in the pre-load and the stress-induced setting of the metaloplastic abutments

AUTOR(ES)
DATA DE PUBLICAÇÃO

2010

RESUMO

Castable UCLA abutments are of wide applicability in dental implants, because they allow the manipulation in the laboratory at low cost and individualization of abutments for each patient. However, they show the worse results of marginal adaptation then the fabricated, although these aggregate costs significantly higher. UCLA premachined abutments for casting came in this interstice, with those of a lower cost than pre-made and better adaptation of the abutment. Nowadays, they are manufactured predominantly based on Ni-Cr-Ti or Co-Cr alloys. However, there is no data on its performance after the overcasting, and little is known about which one would be the best choice. Thus, the aim of this study was to analyze the marginal misfit and its influence on tension induction and in preload values of prosthetic screws in prostheses made with premachined UCLA abutmens. Forty frameworks were prepared simulating three-element metal fixed partial dentures retained by two osseointegrated implants, which were obtained through casting of acrylic resin frameworks waxed in a master model. The structures were distributed into four groups (n = 10): Group 1- premachined Co-Cr UCLA abutment; Group 2- casted Co-Cr UCLA abtument (control group 1); Group 3- premachined Ni-Cr-Ti UCLA abutment and Group 4- casted Ni-Cr-Ti UCLA abutment (control group 2). To measure the values of marginal misfit the single screw technique was used. The method of strain gage was used to analyze the stresses; and the values of preload of the bolts after cycling mechanics, were obtained by means of digital electronic torque meter. The data of marginal misfit and strain were obtained before and after of the mechanical cycling, but the values of pre-load were obtained at intervals of 100 thousand cycles. The data were submitted to variance analysis (Three-Way), followed by Tukey test (p=0.05) and the presence of correlation was verified by means of the Pearson correlation. The average values for marginal misfit (µm) were, G1 (3608.7 ± 1429.6), G2 (7918.3 ± 5055.9), G3( 4577.3 ± 4017.2), G4 (9824,2 ± 1100.6). The average values for tension (gf) were: G1 (7918,3 ± 5208.8), G2 (3608.8 ± 2335.9), G3 (9824.3 ± 4125.5) and G4 (4577.3 ± 15510.3). The averages values of preload (Ncm) among the phases: 0 (11.7 ± 3.8), 100 thousand (9.7 ± 3.4), 200 thousand (8.9 ± 3.7) 300 thousand (9.3 ± 3.2), 400 thousand (9.7 ± 3.4), 500 thousand (10.6 ± 4). The use of premachined UCLA abutment did not reduce the values of marginal misfit and strain when compared with the plastic UCLA abutments. The alloy of Co-Cr showed the lowest values of marginal misfit. The kind of abutmetns and alloy used influenced the values of preload. There was no correlation between strain, marginal misfit and preload.

ASSUNTO(S)

protese dentaria fixada por implante biomecanica dental prosthesis implant-supported biomechanics

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