From Egypt, To The World

Locked Plates By EgiFix :

DHS Locked Plate :

Features Increased rotational stability The shape of the blade leads to improved rotational stability of the femoral head-neck fragment, which is vital for reducing the risk of cut-out, delayed union and varus angulation ian unstable trochanteric fractures. Better anchorage in the femoral head The specially designed tip of the blade allows for compaction of the bone when the blade is inserted. This compaction leads to improved anchorage of the implant in the femoral head, which is beneficial especially in osteoporotic bone.   Increased support surface The weight-bearing surface of the DHS Blade is greater compared to the surface of the conventional DHS Screw and can therefore take greater loads. A larger surface means less pressure from the implant onto the bone and less risk for cut-out. Less cut-out Better rotational stability, better anchorage in the femoral head and an increased support surface result in a lower risk of cut-out.less pressure from the implant onto the bo

Proximal Femur Locked Plate :

Plate Features The two proximal plate holes are threaded and accept 7.3 mm cannulated screws (locking, conical fully threaded, or conical partially threaded). The third locking hole is threaded to accept 5.0 mm cannulated locking screws. (Necessity of this screw is fracture configuration dependent and should be identified during preoperative planning.) The holes in the shaft of the plate are combi-holes that accept 5.0 mm locking screws in the threaded portion of the hole and 4.5 mm cortex screws in the DCU portion. Anatomically contoured to approximate the lateral aspect of the proximal femur. Plates specifically designed for left or right femur to  accommodate average femoral neck antiversion. Plate lengths allow spanning of the entire diaphysis in segmental fracture patterns. Use of locking screws provides the option of an angular stable construct independent of bone quality. Plate can be tensioned to create a load-sharing construct. Manufactured of implant quality 316LVM

distal Femur Locked Plate :

Increased rotational stability The  Distal Femur Plates are based on the EGI-LOC™ System. The shaft portion of the plate features Combi holes and  the head features threaded holes. The shape of the plates  is based on the design of the Distal Femur. Threaded holes in plate head Round locking holes accept 5.0 mm Locking Screws and 4.5 mm Cortex Screws. Preshaped Plates The preshaped, low-profile plate reduces issues with soft tissue and eliminates the need for plate contouring.   Combi Holes In Plate Shaft The Combi hole allows an internal plate fixation using  standard 4.5 mm Cortex Screws, 5.0 mm Locking Screws  or a combination of both, thus allowing more flexible  intraoperative technique. Angular Stability Prevents screw loosening as well as primary and secondary loss of reduction and allows early functional mobilization. Rounded Plate Tip Tapered, rounded plate tip facilitates a minimally invasive surgical technique

Proximal Tibia Locked Plate :

Proximal Humerus Locked Plate :

Plate Features : Increased rotational stability Anatomically contoured; plate is twisted 20° and bent to fit the distal tibia. Available for left and right tibia. Limited-contact shaft design with 4 to 14 combination locking/compression holes. Eight distal locking holes accept 2.7 mm Cortex, 3.5 mm Locking, 3.5 mm Cortex, or 4.0 mm Cancellous Bone Screws. Proximal and distal holes for 1.6 mm or 2.0 mm Kirschner wires. 316LVM stainless steel and titanium. Locking holes in distal region are parallel to the joint. Elongated hole in shaft aids in initial plate positioning. The shaft holes accept 3.5 mm Locking Screws in the threaded portion and 3.5 mm Cortex Screws, 4.0 mm Cortex Screws and 4.0 mm Cancellous Bone Screws in the compression portion. Distal tab for optional medial malleolus screw accepts 3.5 mm Locking, 2.7 mm Cortex, 3.5 mm Cortex, 4.0 mm Cortex or 4.0 mm Cancellous Bone Screws.