Retentive force of telescopic crowns combining fiber-reinforced composite and zirconia

Abstract: Purpose: This study investigated changes in the retentive force of telescopic crowns fabricated by combining a zirconia primary crown and a fiber-reinforced composite (FRC) secondary crown. Methods: Primary zirconia crowns were produced with a nominal convergence angle of 0°. Forty-eight secondary crowns were milled from FRC and divided into three study groups (n=16/group) based on milling parameters and post-milling adjustment. The offset parameter used for the final milling step of the inner crown surface wa… Show more

“…Some concerns have been raised regarding the decrease in the retentive force of the secondary crown due to wear with longterm use. Tasaka et al reported that the change in retentive force was affected by milling parameters during the fabrication of the secondary crown and the polishing method of the inner surface of the secondary crown [16]. In the present study, the offset parameter of the inner surface of the secondary crown was set to -10 μm, which should have stabilized the retentive force for a relatively long period of time.…”

“…Parallel-sided cylindrical primary crowns were designed using dental CAD software (CARES Visual 2021; Straumann AG, Basel, Switzerland) (Fig. 7) [16]. The primary crowns were milled from a zirconia disk using CAD data (Luxen Zirconia HT: GeoMedi, Fukuoka, Japan).…”

Digital technology for fabrication of removable dental prosthesis with double crowns combining fiber-reinforced composite and zirconia

“…Some concerns have been raised regarding the decrease in the retentive force of the secondary crown due to wear with longterm use. Tasaka et al reported that the change in retentive force was affected by milling parameters during the fabrication of the secondary crown and the polishing method of the inner surface of the secondary crown [16]. In the present study, the offset parameter of the inner surface of the secondary crown was set to -10 μm, which should have stabilized the retentive force for a relatively long period of time.…”

“…Parallel-sided cylindrical primary crowns were designed using dental CAD software (CARES Visual 2021; Straumann AG, Basel, Switzerland) (Fig. 7) [16]. The primary crowns were milled from a zirconia disk using CAD data (Luxen Zirconia HT: GeoMedi, Fukuoka, Japan).…”

Digital technology for fabrication of removable dental prosthesis with double crowns combining fiber-reinforced composite and zirconia

Retentive force of conical crowns combining zirconia and fiber-reinforced composite