Orthopedic Plates #13218834

• Plates available holes are 3, 5, 7, 9 and 11.
• Plates available for Left and Right both direction
• Plate has combi holes and round holes. Combi holes allow fixation with locking screws in the threaded section and cortex screws in the dynamic compression unit section for compression.
• The shaft holes accept 3.5 mmlocking screwsin the threaded portion or 3.5 mmcortical screwsor 4 mmcancellous screwsin the compression portion. Distal locking holes in plate head accept 2.7 mm locking screws.
• 3.5 mm Locking Plate Humeral Distal Medial allow implant placement to address the individual fracture pattern.
• Limited-contact surface reduces bone-to-plate contact and helps to preserve the periosteal blood supply.
• Choice of different lengths of plate eliminates the need to cut plates.
• Pre-contoured plate to match anatomical shape.
• Available in both Titanium and Stainless steel.

• Platesavailable holes are 4, 6, 8, 10, 12 and 14
• Plates available for Left and Right both direction
• Plate has combi holes and round holes. Combi holes allow fixation with locking screws in the threaded section and cortex screws in the dynamic compression unit section for compression.
• The shaft holes accept 3.5 mmlocking screwsin the threaded portion or 3.5 mmcortical screwsor 4 mmcancellous screwsin the compression portion. Distal locking holes in plate head accept 3.5 mm locking screws.
• 3.5 mm Locking Olecranon Plates allow implant placement to address the individual fracture pattern.
• Limited-contact surface reduces bone-to-plate contact and helps to preserve the periosteal blood supply.
• Choice of different lengths of plate eliminates the need to cut plates.
• Pre-contoured plate to match anatomical shape.
• Available in both Titanium and Stainless steel.
• Platesavailable holes are 4, 6, 8, 10, 12 and 14
• Plates available for Left and Right both direction
• Plate has combi holes and round holes. Combi holes allow fixation with locking screws in the threaded section and cortex screws in the dynamic compression unit section for compression.
• The shaft holes accept 3.5 mmlocking screwsin the threaded portion or 3.5 mmcortical screwsor 4 mmcancellous screwsin the compression portion. Distal locking holes in plate head accept 3.5 mm locking screws.
• 3.5 mm Locking Olecranon Plates allow implant placement to address the individual fracture pattern.
• Limited-contact surface reduces bone-to-plate contact and helps to preserve the periosteal blood supply.
• Choice of different lengths of plate eliminates the need to cut plates.
• Pre-contoured plate to match anatomical shape.
• Available in both Titanium and Stainless steel.

• Platesavailable holes are 6, 7, 8, 9, 10, 12, 14, 16, 18 and 20.
• Platehas combi holes and round holes. Combi holes allow fixation with locking screws in the threaded section and cortex screws in the dynamic compression unit section for compression.
• The shaft holes accept 5 mmlocking screwsin the threaded portion or 4.5 mmcortical screwsor 5 mm Lockingcancellous screwsin the compression portion.
• The symmetrical shape of the plate holes enables compression to be achieved in both directions.
• The hole spacing in the plate is regular. Plate positioning is thus not restricted by the presence of a mid-section. This is of particular advantage in comminuted or segmental fractures.
• 4.5/5 mm Locking Broad Plate allow implant placement to address the individual fracture pattern.
• Limited-contact surface reduces bone-to-plate contact and helps to preserve the periosteal blood supply.
• Choice of different lengths of plate eliminates the need to cut plates.
• Pre-contoured plate to match anatomical shape.
• Available in both Titanium and Stainless steel.

• Platesavailable holes are 3, 4 and 5.
• Plates available for Left and Right both direction.
• Available in both Titanium and Stainless steel.
• 2.7 mm Locking Volar Extra Articular Distal Radius Plate 4 Head Holes is precontoured for anatomic fit of the volar aspect of thedistal radius, so that plate placement is away from the articular surface. Extra-articular volar distal radius plates can be used for simple intra or extra-articular fractures. Diverging screw angles secure the radial styloid and other distal fragments.
• Straight plates are contoured to fit the radial column and have a notched tip that allows them to fit on the radial styloid, adjacent to a temporary K-wire fixation.
• Plate has combi holes and round holes. Combi holes allow fixation with locking screws in the threaded section and cortex screws in the dynamic compression unit section for compression.
• The shaft holes accept 2.7 mmlocking screwsin the threaded portion or 2.7 mmcortical screwsin the compression portion. Locking holes in plate head accept 2.7 mm locking screws.
• Locking screws offer a fixed-angle construct to support the articular surface, reduce the need for bone graft, and obtain fixation in osteoporotic bone.
• Smaller plates and screws address fracture fragments individually, with less overall implant bulk.

A fractureis a broken bone. Fractures of the thighbone that occur just above the knee joint are called distal femur fractures. The distal femur is where the thighbone flares out like an upside-down funnel.Distal femur fractures most often occur either:

• In older people whose bones are weak, or
• In younger people who have high energy injuries, such as from a high-speed motor vehicle collision.

In both the elderly and the young, the breaks may extend into the knee joint and, in some cases, may shatter the bone into many pieces.

The 3.5 mm LCP Clavicle Plates combine locking screw technology with conventional plating techniques.

Plates feature COMBI Bone Plate Holes that allow fixation with locking screws in the threaded section for angular stability, and cortex screws in the dynamic compression unit (DCU) section for compression.

A fixed-angle construct provides advantages in osteopenic bone or multifragment fractures where screws do not rely on plate-to-bone compression to resist patient load, but function similarly to multiple, small, angled blade plates.

The wide range of pre-contoured plates allows surgeons to select the plate that will best fit the patient's anatomy.

Available in left and right plates. Plates available in implant-quality stainless steel or titanium. Available with 4, 6, 8, 10, 12, 14, or 16 screw holes The three locking holes distal to the plate head accept 3.5 mm locking screws with StarDrive Recess to secure plate position. The hole angles allow the locking screws to converge with three of the four locking screws in the plate head to support medial

The plates are available in stainless steel and titanium and feature an anatomic shape and profile, both distally and along the fibular shaft. The Combi holes in the Locking Plate shaft combine a dynamic compression unit (DCU) hole with a locking screw hole. Combi holes provide maximum flexibility with the options of axial compression and locking capability through out the length of the plate shaft. K-wire holes accept K-wires (up to 2.0 mm) to temporarily fix the plate to the distal fibula, to temporarily reduce articular fragments, and to confirm the location of the plate, relative to the distal fibula. Fixation with the 2.7 mm/3.5 mm Locking Distal Fibula Plates provides the same benefits of traditional plate fixation methods, with a few important improvements. Locking screws provide the ability to create a fixed-angle construct while using standard AO plating techniques. The ability to place locking screws is especially important in orthopeadic bone, short bone fragments, and multifragment fractures, where screw purchase is compromised. These screws do not rely on plate-to-bone compression to resist patient load, but function similarly to multiple, small, angled blade plates.

The 3.5 mm Locking proximal tibia plates are indicated for fractures of the proximal tibia, including comminuted, depression, bicondylar combination of lateral wedge and depression, periprosthetic, and fractures associated with shaft fractures.

In addition to the existing plate, a version with a lower proximal bend has been developed to provide more options to match the different anatomies of the proximal tibia. The low bend version is contoured to fit closer to the bone under the lateral condyle and slightly lower to the tibia plate compared to the current plate. This low bend is the result of human specimen and CT scan studies. The proximal head/neck contour is similar to the 3.5 mm LC-DCP proximal tibia plate. But even with this alternative version, bending will be required in certain cases due to the highly variable anatomy of the proximal tibia with various shapes and inclinations.

The Locking Medial Proximal Tibia Plates 3.5 and 4.5 are part of the locking periarticular plating system. They are intended to buttress metaphyseal fractures of the medial tibia plate, split-type fractures of the medial tibia plateau, medial split fractures with associated depressions and split or depression fractures of the medial tibia plate. The plates may also be used for fixation of the proximal quarter (lateral and medial) of the tibia as well as segmental fractures of the proximal tibia. The 4.5 version may also be used for fixation of nonunions and malunions of the medial proximal tibia and tibia shaft, as well as opening and closing wedge tibial osteotomies.

The plates have a limited contact profile. The plate head is anatomically contoured to approximate the anteromedial proximal tibia. The plates feature 3 locking screw holes proximally, with trajectories parallel to the joint. These proximal locking head screws also converge in the lateral condyle. The 2 angled locking screw holes in the proximal part of the shaft converge with 2 of the proximal screws in the head of the plate.

• Increase thickness from 1.5mm to 2.4mm provide better strength.
• Special suture column design facilitate stitching of ligament and tendon.
• Use 3.5mm cortex and lockingscrew in proximal holes, provide stronger fixation.
• Proximal humeral Greater tuberosity avulsion fracture

• Screw

  • 3.5mm Locking Screw
  • 3.5mm Cortex Screw

radial head plates available to address various fracture patterns of the proximal radius Plates are precontoured for anatomical fit Combi holes allow fixation with locking screws in the threaded section for angular stability, and cortex screws in the dynamic compression unit (DCU) section for distraction. A fixed-angle construct provides advantages in osteopenic bone or multifragment fractures, where traditional screw purchase is compromised.
Limited-contact design shaft with 2, 3, and 4 Combi holes The holes in the head of the plate accept 2.4 mm locking screws and 2.0 mm cortex screws The shaft holes accept 2.4 mm locking screws in the threaded portion or 2.7 mm cortex screws and 2.4 mm cortex screws in the distraction portion Radial head rim plates available in right and left plates with a 5 tilt to match the anatomy of the radial head Radial head neck plates fit both right and left proximal radii Available in stainless steel and titanium

• Plates available holes are 1, 2, 4, 6, 8 and 10.
• Plate has combi holes and round holes. Combi holes allow fixation with locking screws in the threaded section and cortex screws in the dynamic compression unit section for compression.
• The shaft holes accept 3.5 mmlocking screwsin the threaded portion or 3.5 mmcortical screwsor 4 mmcancellous screwsin the compression portion. Distal locking holes in plate head accept 3.5 mm locking screws.
• 3.5 mm Locking Posteromedial Proximal Tibia Plate allow implant placement to address the individual fracture pattern.
• Limited-contact surface reduces bone-to-plate contact and helps to preserve the periosteal blood supply.
• Elongated Combi holes in the neck and shaft facilitate plate adjustment and allow locking or compression options.
• Choice of different lengths of plate eliminates the need to cut plates.
• Pre-contoured plate to match anatomical shape.
• Available in both Titanium and Stainless steel