2.7 MM LCP STRAIGHT PLATE
The 2.7 MM LCP (Locking Compression Plate) Straight Plate is a versatile orthopedic implant used in various surgical procedures for stabilizing and fixing fractures, correcting deformities, and facilitating bone fusion. Here are its specifications and common uses:
Specification
- Material: Typically made from titanium alloy, renowned for its strength, durability, and biocompatibility.
- Thickness: The plate usually has a thickness of 2.7 millimeters, providing adequate stability while minimizing the risk of tissue irritation.
- Plate Design: The straight plate design features a simple, linear shape with multiple screw holes along its length. These holes allow for secure fixation of the plate to the bone using screws.
- Locking Mechanism: Utilizes a locking screw mechanism, enabling screws to lock into the plate, providing enhanced stability compared to conventional screw fixation.
- Variable Angle Screw Holes: The plate may include variable angle screw holes, allowing surgeons flexibility in screw placement to accommodate different bone geometries and fracture patterns.
Uses
- Fracture Fixation: The straight plate is commonly used to stabilize fractures in various bones of the body, including long bones like the femur, tibia, humerus, and radius, as well as flat bones like the pelvis.
- Osteotomies: It is employed in orthopedic surgeries involving corrective osteotomies to realign bones that have healed in an incorrect position, correcting deformities such as malunions or nonunions.
- Arthrodesis: The plate is used in fusion procedures, such as arthrodesis of joints, to promote bone fusion and stability. Common examples include ankle fusion (arthrodesis) or subtalar fusion.
- Revision Surgery: Used in revision surgeries to reinforce or replace existing implants that have failed or require removal.
- Trauma Surgery: Employed in the treatment of traumatic injuries, such as fractures resulting from accidents, sports injuries, or degenerative conditions.
Overall, the 2.7 MM LCP Straight Plate is a fundamental component in orthopedic surgery, offering versatility in addressing a wide range of fractures, deformities, and fusion procedures across various anatomical sites. Its robust design and locking mechanism provide stable fixation, contributing to successful patient outcomes in orthopedic interventions.