ORIF – Conventional plating

Anatomical reduction of the articular fracture component and fixation with lag screws (absolute stability) is ideal.

After reduction of the articular fracture component, anatomical reduction of the metaphyseal component must be achieved.

In order to avoid varus collapse on the medial side, double plating should be considered and if necessary, carried out. In these fracture patterns the placement of the medial plate may be medial rather than posteromedial. This depends, of course, on the fracture pattern and forces which must be neutralized.

The patient is placed in the Supine position.

• Supine position

For this procedure the following approaches may be used:

• Anterolateral/extended anterolateral approach
• Medial/posteromedial approach

The C1 fracture pattern is best treated with open reduction and direct visualization of the displaced fracture fragments. This ensures anatomic restoration of frontal and sagittal plane alignment. The articular reduction can be confirmed under direct visualization or, provided the metaphyseal reductions are anatomic, with radiographic confirmation.

In situations where open reduction is contraindicated, indirect reduction may be achieved by external manipulation of the fracture fragment with clamps or manipulation with Schanz pins placed into the medial and/or lateral plateaus.

If one is trying to carry out the procedure without opening the joint, then anatomic reduction must be checked either with image intensification or with arthroscopy.

Anatomical reduction of the articular surface is mandatory. Provisional fixation can be performed with K-wires.

In situations where the fracture lines are not directly visualized, positioning of the knee is important for correct reduction and fixation. Frontal and sagittal plane alignment must be confirmed radiographically. The use of an external fixator to directly maintain alignment is extremely helpful.

The positioning of the buttress plate is important as the ideal location is at the apex of the fracture fragment and, if possible, perpendicular to the fracture plane.

Typically the medial column is addressed before lateral fixation (to restore sagittal and frontal alignment).

The medial plate may be applied either posteromedially or medially. The position of the plate is determined by a number of important factors such as the direction of the fracture lines, the forces to be neutralized, the exposure already made, and finally which application will allow for the least traumatic but still biomechanically-sound application.

The lateral plate is inserted in the space between muscle and periosteum. The plate must be carefully contoured to the bone. Fixation begins with the insertion of an apex screw immediately distal to the lateral fracture line. Fixation then proceeds proximally towards the joint surface with lag screws being inserted through the plate at the level of the articular surface. More information on this technique can be found in the Buttress (antiglide) plates section of the Plating basic technique.

This illustration shows the final construct.

Close monitoring of the tibial compartments should be carried out, especially during the first 48 hours after injury and again after surgery to rule out compartment syndrome. More information is provided here:

• Compartment syndrome

The neurovascular status of the extremity must be carefully monitored. Impaired blood supply or developing neurological loss must be investigated as an emergency and dealt with expediently.

Oral or subcutaneous administration of DVT prophylaxis for six weeks should be strongly considered.

Optimal stability should be achieved at the time of surgery, in order to allow early range of motion exercises. Unless there are other injuries or complications, mobilization may be performed on post OP day 1. If available, continuous passive motion (CPM) splints can be very helpful in the early phase of rehabilitation. Static quadriceps exercises with passive range of motion of the knee should be encouraged. Afterwards special emphasis should be given to active knee and ankle movement.

The goal is to achieve as full range of motion as possible within the first 4–6 weeks.

Weight-of-leg weight bearing is initiated depending on patient comfort. Depending on the severity of the articular displacement, weight bearing can begin as early as 6 weeks postoperatively. In situations where articular displacement was significant weight bearing should be delayed for 10–12 weeks.

Wound healing should be assessed within the first two weeks. Subsequently, a 6- and 12-week follow-up with radiographic assessment is usually performed. If a delayed union is recognized, further surgical care may be necessary and should be carried out as soon as possible. Residual knee instability may require delayed reconstruction.

Implant removal is not mandatory and should be discussed with the patient.