Orthopedic 7.0mm Cannulated Instrument Set – Precision Surgical Tools for Bone Fixation
The Orthopedic 7.0mm Cannulated Instrument Set is a high-quality surgical toolkit designed for precise bone fixation procedures, including fracture management, intramedullary nailing, and orthopedic reconstructions. Engineered with medical-grade stainless steel, this set ensures durability, precision, and ease of use in complex orthopedic surgeries.
Key Features:
Comprehensive Cannulated Instrument Set – Includes all essential tools required for accurate bone drilling, fixation, and alignment in orthopedic procedures.
7.0mm Cannulated Design – Facilitates precise guidewire placement for efficient screw and nail insertion in bone surgeries.
High-Quality Stainless Steel Construction – Ensures strength, corrosion resistance, and long-term surgical reliability.
Ergonomic & User-Friendly Handling – Designed for surgeon comfort, reducing fatigue during prolonged procedures.
Autoclavable & Sterilizable – Fully reusable and easy to sterilize, meeting hospital hygiene standards.
Applications of the 7.0mm Cannulated Instrument Set:
Orthopedic Trauma & Fracture Fixation – Used in internal fixation surgeries for precise alignment of broken bones.
Intramedullary Nailing Procedures – Enables accurate placement of guidewires and screws in long bone surgeries.
Spine & Joint Surgeries – Assists in complex reconstructive orthopedic procedures requiring cannulated instrumentation.
Knee & Hip Surgeries – Ideal for bone stabilization in joint replacement and repair surgeries.
Why Choose Our Orthopedic 7.0mm Cannulated Instrument Set?
ISO & CE Certified – Compliant with international medical standards for safety and precision.
Trusted by Orthopedic Surgeons & Hospitals Worldwide – Used in leading medical institutions for high-success rate procedures.
Long-Lasting & Reliable Performance – Designed for repeated surgical use without compromising efficiency.
Upgrade your orthopedic surgical toolkit with the 7.0mm Cannulated Instrument Set – ensuring precision, reliability, and optimal patient outcomes in every procedure