Low Profile Screw, Titanium, 6.7 mm x 90 mm, Cannulated, 28 mm Thread
Low Profile Screw, Titanium, 6.7 mm x 90 mm, Cannulated, 28 mm Thread
The Low Profile Cannulated Screw Titanium 6.7 mm x 90 mm with 28 mm Thread is a precision-engineered orthopedic fixation implant designed for trauma, fracture fixation, and reconstructive surgical procedures. Manufactured from high-strength titanium, this screw provides exceptional durability, corrosion resistance, and biocompatibility for long-term clinical performance.
Its cannulated design allows guidewire-assisted insertion for accurate placement and controlled alignment during surgery. The 28 mm thread length provides strong bone engagement and compression capabilities where required, while the low-profile head helps reduce implant prominence and soft tissue irritation.
With a 6.7 mm diameter and 90 mm length, this screw is suitable for orthopedic procedures requiring reliable stabilization and strong fixation performance.
Key Features & Benefits
Titanium Construction
Provides exceptional strength, corrosion resistance, and biocompatibility.
Cannulated Design
Allows accurate guidewire-assisted insertion and positioning.
28 mm Thread Length
Offers enhanced bone purchase and secure fixation.
Low Profile Head
Helps reduce implant prominence and soft tissue irritation.
6.7 mm Diameter
Provides robust fixation strength for orthopedic applications.
90 mm Length
Suitable for trauma and reconstructive fixation procedures.
Orthopedic Trauma Compatible
Designed for fracture fixation and orthopedic reconstruction.
Technical Specifications
Product Name: Low Profile Cannulated Screw
Material: Titanium
Diameter: 6.7 mm
Length: 90 mm
Thread Length: 28 mm
Design: Cannulated
Head Style: Low Profile
Application: Orthopedic Bone Fixation
Clinical Specialty: Orthopedic Surgery / Trauma Surgery
Applications
Fracture Fixation
Trauma Surgery
Orthopedic Reconstruction
Long Bone Stabilization
Sports Medicine Procedures
Foot and Ankle Surgery
Hospital Orthopedic Departments
Ambulatory Surgery Centers