Ritter Spiral SB/LA® Dental Implant – Internal Hex Connection
Starting at $149.00
Ritter® SB/LA Dental Implant – Internal Hex Connection
- Internal Hex Connection
- Compatible with Zimmer® 3.5 RP and many other systems
- Hex Size – 2.42mm
- Mount-less Implant – Seated inside a titanium sleeve
- One platform for all implant diameters
- Material – Titanium Ti-6AL-4V-ELI
- Unique and Premium Packaging
- Cover Screw is included
One implant design various connections
Built-in Platform Switching
Prevent crestal bone loss, which is fundamental for long-term success and stability. It increases the volume of soft tissue around the implant platform, helping to improve the aesthetic final result. As well as reduces the amount of stress transferred from the abutment to the bone.
Tapered coronal design and micro rings designed to reduce bone stress and minimize bone resorption to optimize bone and soft tissue volume.
Tapered implant body & core with dual threads and optimal pitch of 1.0mm for faster implant insertion with better stability.
Progressive threads with compression properties and drilling blades on the apex enable to adjust the implant position during placement.
Proper implant surface is the key for optimal Osseointegration. Our unique process is a combination of Sandblasted Large grit particles and Acid etched. The roughened micro & nano surface structure improve bone adhesion that significantly increase surface area of the implant body for optimal osseointegration.
Curved passive apex allows safe implant insertion without the risk of damage to the surrounding.
Instructions for use: IFU For more information please review our catalog
Please note: Recommended insertion torque: 35-60 NCM.
Procedure recommended by Ritter Implants cannot replace the judgment and professional experience of the surgeon. Adequate bone is needed to support the implant with width and height being the primary dimensions of concern.
In situations of torque levels lower than 30 NCM an unloaded healing period of 4-6 months is recommended to enable osseointegration.