PteryGrip Implant

DSI PteryGrip implants were developed to comprehend the challenges in the posterior maxilla and pterygomaxillary regions. Engineered to deliver superior retention and stability, making them a reliable choice for immediate loading procedures. With their cutting-edge design, PteryGrip implants combine functionality, precision, and biocompatibility to enhance the overall success of implantology treatments.

PteryGrip implants are crafted with deep, sharp threads to ensure strong primary stability in the posterior maxilla. The neck features a smooth surface specifically designed to minimize the adhesion of perio-pathogens, significantly reducing the risk of inflammation and peri-implant diseases. This smooth surface also aids in maintaining healthy peri-implant tissues, promoting long-term success.

Indications:

• Restoration of the atrophic posterior maxilla
  
• Placement in the pterygomaxillary region
  
• Cases requiring high primary stability
  
• Immediate loading procedures

Advantages:

• Deep, sharp threads provide exceptional retention and primary stability, even in low-density bone.
  
• The smooth neck surface minimizes the adhesion of perio-pathogens, minimizing the chances of inflammation.
  
• RBM-treated surface enhances biological integration, ensuring long-term success.
  
• Self-tapping design enables quick and secure insertion.
  
• Made to match the unique bone structures of the posterior maxilla for optimal performance.
  
• Made of titanium alloy grade 5 Ti-6Al-4V ELI
  
• Patients have less post-operative pain, swelling, or complications
  
• Outstanding bone-to-implant connection and long-lasting stability
  
• Much more accurate chewing force distribution
  
• Connection 2.42mm Internal Hex, accepts the full range of the DSI Prosthetic component.
  
• Ideal solution for patients with severe bone loss, or bone structural integrity issues.

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.