Ø2.8 Drill guide

Material Excellence

Instruments are constructed from premium stainless steels (05Cr17Ni4Cu4Nb, 420B, 316L, 304), offering high fatigue resistance. Electropolished surfaces minimize tissue friction and surgical trauma.

Comprehensive Locking Plate Procedure Coverage

The set systematically covers the entire locking plate internal fixation workflow: from fracture fragment reduction, plate contouring, and precise positioning/drilling to bone thread preparation, screw implantation, and final torque locking. All instruments work synergistically to ensure seamless procedural transitions, meeting the demands for procedural completeness and efficiency in open reduction internal fixation, particularly compatible with 2.7mm and 3.5mm locking screw systems.

Precise Reduction and Anatomical Adaptation

The set provides specialized reduction and contouring tool combinations to ensure anatomical fracture reduction and ideal plate-to-bone contact. Bone levers facilitate exposure and initial manipulation, pointed reduction forceps achieve precise fragment alignment, and centralized bone holding forceps stabilize fracture ends while maintaining reduction. Dedicated left/right plate benders allow surgeons to perform precise three-dimensional contouring according to bone anatomy—a crucial prerequisite for achieving low-profile plate contact and stable fixation.

Modular Guidance System Ensures Precision Positioning and Drilling

The modular, multi-specification guided drilling system ensures accurate positioning and preparation of screw channels for different screw sizes (2.7mm cortical/locking screws, 3.5mm cortical/locking screws). Triangular and threaded guidewires provide initial positioning guidance. A series of dedicated bone drills (Ø2.0mm, Ø2.4mm, Ø2.8mm) combined with diverse guide sleeves (e.g., Ø2.7/Ø2.0 double-ended, 2.0mm universal double-ended, Ø3.5/Ø2.4 double-ended, Ø2.8mm) flexibly adapt to various screw hole requirements, ensuring drilling direction accuracy and bone channel quality even in complex anatomical locations.

Efficient Bone Thread Preparation and Depth Measurement

Dedicated taps for different screw types enable efficient, matched bone thread formation. Locking screw taps (HS2.7, HS3.5) are specifically designed for locking screws, while cortical bone taps (HA3.5) serve standard cortical screws. Depth gauges accurately measure prepared screw channel depth, providing reliable data for appropriate screw length selection—a critical step to prevent screw over-penetration through the opposite cortex or insufficient fixation strength from short screws.

Secure Screw Implantation and Precise Torque Control

The set provides reliable screw holding and driving tools, with particular emphasis on meeting the core torque precision requirements of locking technology. Large and small screw holding sleeves ensure stable screw passage and implantation. Comprehensive drivers and drive handles accommodate different operational preferences and scenarios. The core torque control system includes torque quick-change handles, standard torque handles, and torque quick-change adapters, ensuring locking screws are safely and reliably final-tightened according to strictly set torque values, preventing screw stripping or bone thread damage from over-tightening while ensuring fixation stability.

Comprehensive Workflow Coverage Enhances Surgical Efficiency

The set completely covers the entire locking plate internal fixation chain—from fracture reduction and plate contouring to screw channel positioning/preparation, screw implantation, and precise locking. High instrument synergy prevents intraoperative workflow interruptions due to missing or incompatible tools, significantly shortening procedure time—particularly valuable for acute trauma cases requiring efficient management.

Reduction and Contouring Precision Ensures Anatomical Adaptation

The professional reduction tool set (bone levers, pointed reduction forceps, centralized bone holding forceps) provides multidimensional mechanical control for precise fragment coaptation. Dedicated left/right plate benders support intraoperative fine three-dimensional contouring according to bone anatomy, ensuring low-profile, tension-free plate-to-bone contact—establishing the foundation for stable fixation and reducing reduction loss risks.

Modular Guidance System Achieves "Zero-Error" Drilling

Modular guide sleeves (e.g., double-ended guides, universal guides) and stepped bone drills (Ø2.0/2.4/2.8mm) precisely match different screw specifications (2.7mm/3.5mm cortical and locking screws). Triangular and threaded guidewires provide initial positioning benchmarks, while rigid guide sleeve channels ensure controllable drill bit direction, fundamentally preventing drilling deviation or over-penetration and substantially improving first-attempt screw implantation success rates.

Dedicated Tapping and Depth Control Ensure Fixation Strength

Specialized taps (HS2.7/HS3.5/HA3.5) for different screw types (locking/cortical) and diameters (2.7mm/3.5mm) ensure perfect bone thread-to-screw matching, optimizing holding power. Depth gauges accurately measure screw channel depth, guiding optimal screw length selection to prevent fixation failure or neurovascular injury from improper sizing.