Effective+ Implant

Self-cutting implant with cavity and through holes. Due to the original design, the bone tissue is less injured and lost.

Recommended for a bone of poor quality.

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Advantages

To provide less traumatic outcome and less loss of the bone tissue
To save the bone nutrition inside the implant which excludes the necrosis
To speed up osseointegration

Technical Characteristics

  • Slightly conical shaped implant with the cavity of one-third of the length of the body and cross-cutting holes in apical portion.
  • In the implant neck there is a little carving thread with a step 0,25 transferred in an aggressive one with a step 0,75 mm.
  • The carving serves for self-cutting and forming of the bone lodge during the installation process.
  • The surface is handled by multi-stage method Smart, which improves the osseointegration.
  • Hex-conical shaped connection of implant-abutment.
Diameters, mmREF
4.01.1461.147
4.61.1511.152
Lengths, mm1011.5

FAQs

Surface morphology with optimal biological features that attract osteoblast and increase osseointegration.

Double thread geometry, with microthreads to increase bone interlocking in the cortical part and standard threads in the remaining body to improve primary stability and placement.

Marginal bone preservation is promoted due to the excellent biomechanical characteristics, including thread design and surface treatment.

- Surface morphology with optimal biological features that attract osteoblast and increase osseointegration.

- Double thread geometry, with microthreads to increase bone interlocking in the cortical part and standard threads in the remaining body to improve primary stability and placement.

- Marginal bone preservation is promoted due to the excellent biomechanical characteristics, including thread design and surface treatment.

Surface morphology with optimal biological features that attract osteoblast and increase osseointegration.

Double thread geometry, with microthreads to increase bone interlocking in the cortical part and standard threads in the remaining body to improve primary stability and placement.

Marginal bone preservation is promoted due to the excellent biomechanical characteristics, including thread design and surface treatment.

- Surface morphology with optimal biological features that attract osteoblast and increase osseointegration.

- Double thread geometry, with microthreads to increase bone interlocking in the cortical part and standard threads in the remaining body to improve primary stability and placement.

- Marginal bone preservation is promoted due to the excellent biomechanical characteristics, including thread design and surface treatment.