DSI Smart Implant's design makes the installation at an equal pace throughout its entire length. It eliminates any tension between the upper and lower parts of the implant. The design of the groove at the apex enables the implant to cut through the bone and compress it towards the implant's core. The hybrid dual-thread design delivers high support of the implant in the jawbone, by a reduction of the drilling bone volume.
DSI Smart Implant is developed using histological analysis of the cortical and cancellous bone matter. It is done in order to achieve a reduction of drilling volume along with additional primary stability. The special HDTS (Hybrid Dual Thread Screw) technology uses two different thread types for implant insertion. It is particularly useful for narrow ridges. It keeps bone damage to the minimum while maximizing primary stability, especially in soft bone.
Indications:
Immediate implantation after extraction.
Traditional 2-stage protocols.
Both single and multi-implant restorations.
Can be used for all bone types, and facilitates effortless insertion even in the toughest bone.
Advantages:
Significantly shortening the process of bone-implant integration due to a unique dual-thread design.
Load forces are equally distributed along the entire implant giving maximum primary stability.
Enables precise control over implant placement in narrow ridges and fresh extraction sites.
Made of titanium alloy grade 5 Ti-6Al-4V ELI with SLA surface treatment.
Hybrid Dual Thread design for stable grip at the cortical bone without compressing it.
Withstands higher axial & vertical loads compared to other implants.
Enabling high blood supply around the core of the implant.
Connection 2.42mm Internal Hex, accepts the full range of the DSI Prosthetic component.
Increased overall stability, especially in the soft bone.
Rounded apex with self-tapping threads for optimal surgical flexibility.
FDA Approved
SLA Surface Treatment: The classic SLA surface, short of «Sand-blast, Large grit, Acid-etch» is based on a large aluminum oxide Al2O3 particles sandblasting technique that generates a macro-roughness on the titanium surface. Sandblasting is followed by an acid-etching batch at high temperatures. As a result, subtle-sized 2-5 micron micropores appear at the implant surface. This unique macro/micro-topography provides an ideal structure for cell attachment while reducing the possibility of bacterial colonization. SLA surface treatment is one of the most used in modern dental implantology. The studies confirmed its strong long-term performance, high mechanical stability, and low odds of developing peri-implantitis. DSI has improved the process, making it hands-free and minimizing the aluminum oxide residuals that may remain on the surface and could significantly impair osseointegration.