Micro Periosteal Elevator Insert, Cross-Shaped, 3.2 mm Wide

The Micro Periosteal Elevator Insert is a precision-engineered instrument designed for delicate periosteal elevation procedures in oral and maxillofacial surgery. Featuring a cross-shaped design and a 3.2 mm working width, this insert provides surgeons with enhanced control and access in confined anatomical spaces where standard instruments may be too bulky.

Key Features

• Cross-shaped insert geometry for improved angulation and tissue access
• 3.2 mm wide working end suited to micro-surgical applications
• Designed for atraumatic elevation and reflection of periosteal tissue
• Manufactured to the exacting quality standards associated with Helmut Zepf GmbH instrumentation
• Compact form factor compatible with minimally invasive surgical approaches

Clinical Applications

The Micro Periosteal Elevator Insert is particularly well-suited for implant site preparation, guided bone regeneration procedures, and flap management in areas requiring precise tissue handling. Its refined 3.2 mm tip width allows clinicians to work within narrow surgical corridors without compromising visibility or tactile feedback.

Design Advantages

The cross-shaped configuration of this Micro Periosteal Elevator Insert enables multi-directional tissue elevation, reducing the need to exchange instruments during a procedure. This contributes to more efficient workflow and minimized tissue trauma — both critical considerations in microsurgical environments.

FAQ

What procedures is this insert intended for? It is intended for periosteal elevation and tissue reflection tasks in oral surgery, implantology, and related disciplines requiring fine, controlled instrumentation.

What does the cross-shaped design offer over standard inserts? The cross-shaped profile allows engagement from multiple angles, improving adaptability in anatomically complex sites.

Is the 3.2 mm width suitable for minimally invasive surgery? Yes, the narrow 3.2 mm working end of the Micro Periosteal Elevator Insert is specifically dimensioned for use in minimally invasive and microsurgical contexts.