Viteo Base Ti is a titanium bonding base for single tooth restorations. The special, Soft-edge-Design of the bonding surface is suited to the Ivoclar restoration materials[1-2].
The connection between the titanium bonding base and the implant has been certified and coordinated with various used implant systems[3-4].
rounded design of the bonding surface allows a uniform distribution of force[1-2]
Adjustable abutment height - from 6 mm to 4 mm[4, 6]
Recessed rotation protection – safe positioning and support of the restoration materials[2, 5]
increased bond strength due to preconditioned surface[7-9]
When the restoration is subjected to stress or tension, the rounded design of the bonding surface, without edges and rotation pins, allows a uniform distribution of force - comparable to the design of a framework with veneering materials. The result: The tensile or compressive stress on the bonding surface and thus within the restoration is evenly distributed. (Excessive) stress in selective areas is avoided. This reduces the risk of fractures[1-2].
Implants are often inserted at the bone level, so that the vertical distance to the antagonist tooth is increased. In this case, the titanium bonding base, with its long shaft height, supports the restoration material. With a shorter vertical distance, a shorter shaft height is advantageous.
The inner anti-rotation protection is located vertically throughout the entire height of the shaft. It enables precise positioning of the hybrid abutment and the abutment crown during cementation. Due to the recessed design, the wall thickness of the restoration material is not reduced[2, 6].
The bonding surface of Viteo Base Ti is industrially preconditioned. Sandblasted surfaces in combination with the appropriate luting system (Multilink Hybrid Abutment) ensure a good bond between the titanium base and the restoration material. This saves time and ensures a enhanced marginal seal after cementation[9, 13].
The Viteo Base Ti, with its blasted bonding surface and internal antirotation protection, is suitable for PRESS and CAD/CAM-produced restoration materials[4, 10].
* Currently only available for Planmeca systems
[1] Eser A., FEM Simulations of Various Abutments for Straumann Bonel Level Implant, Test Report, Ivoclar Vivadent AG, 2019
[2] Albrecht T., Härdi S., Gnos T., Entwicklung eines virtuellen Teststands für dentale Implantat-Abutments, Study Report, Interstaatliche Hochschule für Technik Buchs, 2014.
[3] Burger G., Kompatibilität zu Implantat Systemen- Passgenauigkeit zu verschiedenen Implantat-Systemen bzw. Schnittstellen zum Implantat gemäss Originalteile, Test Report, Ivoclar Vivadent AG, 2015
[4] Scherrer P., Spirig U., Designvalidierungsbericht, Test Report, Ivoclar Vivadent AG, 2016.
[5] Burger G., Ti Cutter for Viteo Ti Abutments, Test Report, Ivoclar Vivadent AG, 2015.
[6] Burger G., Implantat Base Titan Passgenauigkeit Rotationlock, Test Report, Ivoclar Vivadent AG, 2015.
[7] Brot A., Implant Base Ti Scherhaftung, Test Report, Ivoclar Vivadent AG, 2015.
[8] Burger G., Analyse industrielle und manuelle Oberflächen-Konditionierung, Test Report, Ivoclar Vivadent AG, 2016.
[9] Burger G., Randspaltdichtigkeit IV Viteo @ IPS e.max CAD / Multilink Hybrid Abutment, Test Report, Ivoclar Vivadent AG, 2015.
[10] Burger G., Analyse keramische Press- und CAM-Passgenauigkeit @ DF Implant Base Ti, Test Report, Ivoclar Vivadent AG, 2015.
[11] Heintze S., Eser A., Präklinik (FEM-Simulation), Test Report, Ivoclar Vivadent AG, 2019.
[12] Burger G., Implant Base Titan Untersuchungsbericht, Definition der Kaminhöhen, Test Report, Ivoclar Vivadent AG, 2014.
[13] Caduff R., Zeitersparnis durch industriell vorkonditionierte (sandgestrahlte) Klebebasis der Viteo® Base Ti, Untersuchungsbericht, Ivoclar Vivadent AG, 2021.
[14] Burger G., Heintze S., Summary of Pre-Clinical Testing (MDR), Test Report, Ivoclar Vivadent AG, 2020.