Angulated Screw Access Solution
The Neoss angulated screw access solution with the iGO screw connection provides the freedom to design optimized screw channels, tilt implants for ideal position and increases accessibility in areas where space is limited. Suitable for use at angles up to 25° and with 360° rotational freedom, it improves both restoration esthetics and handling, and offers:
- Design Freedom
Optimized screw exit
Palatal screw exit allows for screw-retained restoration, improved esthetics and occlusal function.
Screw exits adjusted to favorable positions.
Minimized screw channel
With a narrow screw channel diameter the exit surface area is significantly reduced and the impact on the restoration is minimized.
Easier posterior access
Easier access with angulated screw channel allowing the iGO screwdriver to be tilted, thus avoiding opposing teeth.
Reliable carry function
The unique iGO screw connection for the Neoss straight and angulated screw channels ensures confident engagement and secure delivery to facilitate the screw placement.
High pre-load for long-term retention
The required tightening torque of 32 Ncm (for Neoss Ø3.5-6.0 implants) is possible to achieve even at angles up to 25°, providing an exceptional pre-load of 500 N.
An angulated screw channel allows for a screw-retained solution in the anterior with no cement. This enables retrievability, complete control and easy maintenance without compromise.
Transmission of high torque
The patented1 iGO design, with separate pick-up and torque transmission functions, has a large screwdriver contact area that enables a strong grip, efficient torque transmission and confident fastening even at angles up to 25°.
NeoLoc - A high quality connection
Neoss individual abutments are produced from blanks with a pre-milled connection to ensure the quality and benefits of the NeoLoc® implant-abutment connection. In addition, the Crystaloc™ surface technology on the iGO abutment screw facilitates a high clamping force between the abutment and implant2 resulting in additional resistance to fracture during long-term clinical function.
Slim internal design
The internal space required for the screw channel is minimized. Excessive labial surface protrusion or insufficient wall thickness can be avoided, allowing greater angulation and a lower abutment height.
1. Patents pending 2. Fatigue Performance according to ISO 14801, Neoss Sponsored Report
Contact your local representative for availability in your market.