IAT Implant system

ED Surface

ED Surface is a surface property of a fixture created together with the fixture shape, through electric discharge machining with pure titanium wire electrodes. Micropits with Ra surface roughness values of 1.5 to 2µm are created by electric spark discharge. In these micropits, proteins and cells readily accumulate, which is beneficial for cell growth, proliferation, and differentiation. Also, titanium surfaces are generally covered by titanium oxide, but ED Surfaces have a titanium oxide layer of approximately 1µm which is thick compared to mechanically machined surfaces which have a thickness of only 5 to 10nm. Furthermore, the composition gradually changes from the outer surface to the interior, from titanium dioxide (TiO2) to titanium oxide (TiO) and then to elemental titanium (Ti), a structure of titanium oxides well integrated with the elemental titanium. This thick and strong titanium oxide layer has shown excellent corrosion resistance and its surface has great wettability with body fluids and blood, promoting biological reactions that greatly aid osteogenesis.

Excellent body design for initial stability after embedding and functional consistency

Implant body shapes affect initial stability after embedding and n-use stability. The IAT EXA PLUS has a unique design with a shallow root of 3-mm screw thread under the platform for strong initial fixation after embedding. This system also enables sufficient osteoanagenesis up to the neck of the implant body by applying ED Surface up to the neck. The neck of the implant body with a bevel prevents stress concentration on surrounding periphery bones after application of implants and minimizes absorption of alveolar bones.

Excellent adhesiveness enough to inhibit intraoral bacterium propagation

Eight-degree Morse taper connection provides significantly tight fitting with almost no micro gaps between the implant body and the abutment. This design reduces micro-movements during occlusion loading preventing peri-implantitis due to intraoral bacterium propagation and absorption of surrounding periphery bones. Moreover, platform switching ensures an ideal width at the boundary between an implant and an abutment to successfully minimize absorption of alveolar bones.

Systematic Lines of Treatment

An advanced IT system, digital dentistry, is introduced in response to the trend of implant surgery. This system also enables sufficient osteoanagenesis up to the neck lines of treatment and realizes safe and secure implant surgery according to the diagnostic design. Also, this system enables CAD / CAM production of highly aesthetic and quality prosthesis meeting expectations of patients.

Bone level

Procedure: Two stage technique
Diameter:φ3.3mm*,φ4.0mm,φ5.0mm
Height:8mm,10mm,12mm,14mm
(*ø3.3mm diameter is not available in 8mm height.)

Tissue level

Procedure: One stage technique
Diameter:φ3.3mm*,φ4.0mm,φ5.0mm
Margin diameter: R: ø4.5mm, W: ø5.5mm
Height: 8mm, 10mm, 12mm, 14mm
(*ø3.3mm diameter is not available in 8mm height.)
Mucosa-penetrating depth: L: h1.5mm, H: h3mm

Implant Body

Evolutionary implant bodies in pursuance of further innovation of performance characteristics

Implant Driver

We discontinued conventional implant carriers and independently developed implant drivers for improvement of visual recognition of the embedding depth and stress reduction during treatment. This improved cutting ability of the drill enables reduction of treatment damage in osteoanagenesis and surgery time.