Salient is an excellent design with a fresh approach for the ever-changing Web. Integrated with Gantry 5, it is infinitely customizable, incredibly powerful, and remarkably simple.


Application Techniques


You can contact us both for technical consultation, questions and orders...

Contact Details

Call Us
+421 919 321 022
Bernolakova 14/A, 974 05, Banska Bystrica, Slovakia
Say Hi

Short Implants

SHORT implants  are used to provide solutions for some problems of anatomic structures and bone augmentation. According to the internal structures, SHORT implants are classified colored in 3 different platforms (NP: Narrow Platform ,RP: Regular Platform, WP: Wide Platform). SHORT implants which are preferred in atrophic edentulous mandible anterior and atrophic edentulous posterior region reduce the alveolar bone augmentation and sinus lifting requirement,also by short implants there is no need for changing the N.alveolar Inf. nerve and it provides saving time economic advantage.

OCTAFIT Platform Design

OCTAFIT Internal Conical Octagon Connection
NP: Narrow Platform Ø3.3 ve Ø3.7 Implant Diameters (Yellow)
RP: Regular Platform Ø4.1 ve Ø4.7 Implant Diameters (Blue)
WP: Wide Platform Ø5.3 ve Ø6.0 Implant Diameters (Green)

Ø3.7  : H  6.0mm  
Ø4.1  : H  6.0mm | Ø4.7  : H  6.0mm
Ø5.3  : H  6.0mm | Ø6.0  : H  6.0mm

New Trend and Perfect Design

SHORT Implant is a perfect system which was designed with fine detail in every point. Conical root form structure, Micro & Macro thread design, reverse buttress thread, 3 notched structure, straight ending apex design, morse taper and OCTAFIT Internal Octagon Connection connection and 1 mm bright surface.

  Conical Root Design that Imitates the Tooth Anatomy

Conical root design with it’s wide coronal and narrowed root structure allows an easy application without damaging the jaw bones and the anatomic formations. Tapered structure provides to expand the bone and  increases the primer stability to highest level in the soft bone.

Micro-Thread Minimizing Cortical stress

Micro threads in the marginal region reduce the pressure in the cortical region so that a resistance is created against resorption in implant neck region. The implant neck region small thread design Micro Thread allows optimal force distribution and reduces the amount of tension. In the cortical bone, micro-thread prevents the contamination and for the esthetic applications, micro-thread provides the force balance on the implant-bone contact. 

Optimum Primer Stable Thread Part

Outside  Reverse Buttress Thread

By self tapping design it provides more space for osseointegration and perfect primary stability. Reverse buttress design that distributes  the marginal forces and softens with straight ending apex allows compressive load transfer and more bone formation on the buttress bottom surface of implant thread than coronal surface.

Straight Ending Apex Design

This design enables balance load distribution of the marginal forces that impact the implant at the end of the implant and creates a strong cushioning effect against the forces entering into the apex region. Especially,for the sinus lift operations, Mode Implant system provides reliable and stable loading by the conical and straight ending design.

Innovative OCTAFIT Internal Octagon Connection Connections

OCTAFIT Internal Octagon Connection design has ability to distribute the forces which occur during the loading  to 8 different points. Especially during the loading to compact bones, this connection system prevents the disruptions, caused by stress, of implants and screw drivers. OCTAFIT Internal Octagon Connection design provides larger implant internal volume and resistance for super structures using on the small diameters. Against marginal forces, this system increases the strenght of implant-abutment connection and provides a great torque. Further, during the loading of the abutment, OCTAFIT Internal Octagon Connection allows the optional positioning demanded for esthetic applications.

Morse Taper Conical Connection
Morse taper implant-abutment conical connection system distributes the forces, caused by over loading,to the conical surfaces. This system minimizes the risk of bone rezorbtion and by the conical connection balancing the force distribution, strenght is increased against blending and twisting moments. Morse taper conical connection allows  a perfect implant-abutment connection and reduces the forces acting on the connection screw.
System Preventing the Micro Leakage
The morse taper  conical connection system provides a perfect integration between implant-abutment with the cold weld connection. This design prevents the leakages and contaminations by the strong obstruction.
Platform Switching

Platform switching provides biomechanic advantage by raising the implant-abutment connection from marginal bone. By the medialization, it presents more narrow prosthetic component than the neck diameter of the implant.



Nowadays, Calcium phoshate is approved as highly bioactive in the scientific literatüre and the surface with CaP component was preferred by global brands as new process trend. By the excellent reaction between calcium ions and bone tissue,it provides perfect bone-implant contact during the optimum osseointegration process.
By the embeded CaP which stimulates cellular function to implant surface, a very strong CaP-bone connection is occured. Microblast concept, BCP granules and hydrosoluble polymers are perfectly bioactive and that’s why act like bone tissue.
Hyroxyapatite Caicium Phosphate ceramics consisted of hydroxyapatite and tricalcium phosphate is a major biomaterial in the dental field. Calcium phosphate looks like bone minerals. Mode Implant surface is roughened with biocompatible BCP (Bicalcium phosphate) with %65 HA to obtain homogen structure by the micro blast technology.
Mode Implant surface which is roughened with BCP (Bicalcium phosphate) containing %65 HA by micro blast technology besides strong osseointegration, by mechanic fixation it provides osseointegration in a short time.
At the end of each process, Mode Implant rougness value is measured and guaranteed between 1,4~1,8 by CNC micro blast process. Surface roughness of each implant is %100 measured after all surface procedures. Every implant models are roughened by full auhtomatic CNC surface morphology and measurement device developed by Mode Medikal engineers. Mode Medikal which uses %100 biocompatible pure calcium phosphate to roughen without any acidic material.
BCP® bioceramics consists of a mixture of hydroxyapatite (HA) and ß-TCP (beta-tricalcium phosphate). It comes in the form of abrasive particles.Micro sandblasting the implant surface with BCP® particles creates a rough, biocompatible surface. Then, the implant is subjected to a mild acid treatment, and thoroughly rinsed and dried.
HA Osteoblastic BCP Surface Morphology
CaP Stimulating Cellular Function
Bone Friendly HA Calcium Phosphate Morphology
A Perfect BIC Bone-Implant Relation
Homogen Surface Morphology
osseointegration 7.jpg
osseointegration 8.jpg
osseointegration 9
osseointegration 10
osseointegration 11
osseointegration 12
osseointegration 13
osseointegration 14