Radial column Locking Plate and distal radius small L-shaped locking plate are suitable for fixation of distal radial fractures.
Features and Advantages
1. Using titanium manufacturing and advanced processing technology, titanium is more suitable as a raw material for orthopedic implant because of its good biocompatibility, high hardness and good corrosion resistance.
2. Low profile design reduces the stimulation of soft tissue.
2. The surface is anodized to improve the hardness, wear resistance and corrosion resistance of the locking plate.
4. Anatomical morphological design to better fit the shape of the radius and reduce the damage to the tissues around the radius.
5. Combination design of locking hole and pressure hole.Angle stabilization or pressure can be carried out as required.
6. The threads on the bone plate can be locked well with locking screws.
7. Kirschner pinholes are used for temporary fixation of bone plates.
8. Universal locking technology,the hole of the universal locking screw allows the maximum Angle of 15° in each direction of the universal locking screw to leave the shaft.
In conclusion, the lateral column Anatomic Titanium Plate and the small L-shaped distal radius Titanium Locking Plate can be based on the three-column theory of the distal radius to reduce the irritation of ligaments and tissues, and the double plate technique can be applied. According to the three-column theory, the structure of the articular surface composed of the distal radius and the distal ulna can be represented by "three columns" to represent their different biomechanical characteristics and pathological characteristics of fractures. The ulna column is a structure related to the distal ulna, including the triangular fibrocartilage complex and the distal radioulnar joint. The central column is the ulnar portion of the distal radius, including the lunate fossa and the sigmoid notch. The radial column is the radial side of the radius and includes the scaphoid fossa and the styloid process of the radius.