The SLA surface is produced by a large grit sand-blasting process with corundum particles that leads to a macro roughness on the titanium surface. This is followed by a strong acid-etching bath with a HCl at elevated temperature for several minutes. This produces the fine 2–4 μm micro pits superimposed on the rough-blasted surface. The surface is not micro porous and therefore provides no enclosed volumes to reduce vulnerability to bacteria. The chemical composition of the SLA structure was found to be titanium dioxide (TiO2) using X-ray photoelectron spectroscopy.
This method analyses the first few atomic layers of the surface, and thus the chemical composition of the material which is in direct contact and interacts with tissue fluids and cells.
Implant-abutment junction is placed closer to the center of the implant and away from implant-bone interface. Together with advantages of conical connection, crestal bone lose is a rare phenomenon in NTA implants.
Surgery time has been shortened by removing the fixture mount from the package and by using a fixture driver for winch the mount is not necessary. However, fixture mounth can be provided separately according to the preference of the clinicians.
Our product has a conical connection that provides bacterial sealing, eliminating micro-movement and micro-leakage issues. In this way, bone structure is preserved and the loosening of the abutment screw is prevented. The inner hexagonal index ensures right and precise placement of the abutment.
As implant lenght gets longer, the straight body gets longer. For this reason, long implants can be placed steadly without causing unexpectable changes at the time of the surgery same as straight type of implants.
When using the drills that contain three sharp edges, the preparation of the implant osteotomy is easy, the frictional heat formation is low, postoperative pain is limited and the drilling time is quite short.
Root form of the implant ensures easier placement, high initial stability, superior stress distribution, less risk of damaging neighboring roots and low risk for accidental perforation of concave surfaces.
DIAMETER; Ø 3.4
HEIGHT; 8.5 - 10 - 11.5 - 13
DIAMETER; Ø 3.7 - Ø 4.2 - Ø 4.6 - Ø 5.1 - Ø 6.0
HEIGHT; 6.6 - 7.5 - 8.5 - 10 - 11.5 - 13
Please proceed to follow the NTA Implant application phase.