One-Piece Immediate Implant

DSI ROOT-Shape implant intended for immediate loading protocol, and the possibility of simultaneous installation of several implants. DSI Root implants are characterized by outstanding performance attributes and a clean implant surface.

A wide spiral thread featuring a microporous coating provides an incredible BIC increasing the strength of the fixation and minimizing the risk of rejection by the body. The main advantage of DSI Root-shaped implants is the easy installation with minimal trauma to the patient and a short healing period. In addition, a bendable neck allows adjustment of the abutment slope angle up to 15°.

Indications:

• Intended for immediate loading protocol.
• Suitable for simultaneous installation of several implants.
• Compatible with multiple crown arrangements.

Features:

• Made of titanium alloy grade 5 Ti-6Al-4V ELI
  
• RBM surface treatment for better osseointegration
  
• Fast Insertion and excellent primary stability
  
• Designed for simplicity in treatment with great aesthetic results
  
• Intended for immediate loading protocol, and the possibility of simultaneous installation of several implants.
  
• Titanium body with a combined thread with a microporous coating
  
• Easy installation with minimal trauma to the patient and a short healing period
  
• Bone condensation design
  
• No pumping effect
  
• Short neck for use in limited areas
  
• Simple placement & prosthetic procedure
• The bendable neck provides extra flexibility and allows adjustment of the abutment slope angle up to 15°
  

RBM surface treatment:

Resorbable blast media (RBM) treatment is a process that utilizes high-speed particle blasting biocompatible calcium phosphate materials. It differentiates from traditional grit-blasting abrasives in that the implant's surface is not exposed to alumina or silicon carbide materials. In the resorbable blast material method, the excessive use of acids for particle debris removal is no longer necessary as it does not penetrate deep into the titanium surface while still delivering homogenous micro and macro porosity for the optimal implant surface topography both at cellular and protein levels. This method provides a much cleaner textured finish absent of any contaminants typically associated with other grit-blasting elements.