2.0MM TRIPPLE DRILL GUIDE
Rs.3,840.00
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Product Information
Product Details
Product Details for 2.0mm Triple Drill Guide
Manufacturer: Nebula Surgical Pvt. Ltd.
Purpose: The 2.0mm Triple Drill Guide is an advanced orthopedic instrument designed to facilitate precise drilling at multiple angles or locations during fracture fixation procedures.
Material Composition
- Base Material: Premium stainless steel for strength, durability, and corrosion resistance.
- Finish: Smooth, polished surface for easy handling and sterilization.
Design Features
Triple Port Design:
- Allows simultaneous or sequential drilling at multiple points, enhancing surgical efficiency.
Precision Alignment:
- Ensures accurate trajectory for 2.0mm drill bits, reducing the risk of misalignment.
Ergonomic and Lightweight Design:
- Comfortable to handle and easy to maneuver during procedures, reducing hand fatigue.
Robust Construction:
- Engineered for repeated use in demanding surgical environments.
Versatility:
- Compatible with various plate systems and standard 2.0mm drill bits.
Sterilization
- Fully autoclavable, adhering to stringent medical sterilization standards for safe reuse.
Technical Advantages
- Multi-Point Precision: Facilitates drilling at multiple angles or points without the need to reposition the guide.
- Efficiency: Reduces surgical time by enabling quick transitions between drilling locations.
- Durability: Withstands repeated use and sterilization cycles without performance degradation.
Compatibility
- Designed to work seamlessly with 2.0mm drill bits and various plate systems.
Benefits for Surgical Use
- Accuracy: Ensures precise drilling for secure fixation.
- Efficiency: Simplifies the procedure, saving valuable surgical time.
- Safety: Minimizes risks of misaligned drilling, improving surgical outcomes.
Ordering Information
For more details or to place an order, contact Nebula Surgical Pvt. Ltd. directly or visit their website.
The 2.0mm Triple Drill Guide is an indispensable tool for orthopedic surgeons, combining precision, efficiency, and reliability to optimize fracture fixation procedures.
