Authors of section

Authors

Andrew Howard, James Hunter, Theddy Slongo

Executive Editor

Fergal Monsell

General Editor

Chris Colton

Open all credits

Open reduction, pediatric hip locking plate

1. Preliminary remarks

Introduction

Children's hip fractures have historically had a bad prognosis. Accurate stable fixation has been one of the factors identified to improve the outcome.

The main problems have been avascular necrosis (AVN) due to disruption of the blood supply, nonunion, and malunion due to unstable fixation.

Extracapsular fractures have a reduced incidence of AVN, but are prone to malunion without stable fixation.

The objective is timely fixation without disruption of the blood supply.

Angularly stable fixation is the solution to malunion. This is the rationale for using a pediatric hip locking plate.

open reduction pediatric hip locking plate

Implant selection

The choice of implant size depends on the age and weight of the child.

Generally, a 130° angled plate is appropriate for fracture fixation as it corresponds most closely to the child's femoral neck-shaft angle. It offers the possibility of three parallel screws into the neck.

Plate length depends on the extension of the fracture down the femoral shaft. The pediatric hip locking plate has a choice of three, five, seven, and nine holes.

Longer locking screws, not included in the standard pediatric hip locking plate set, may be required.

open reduction pediatric hip locking plate

Implant placement

During preoperative planning, a decision should be made whether fixation needs to cross the physis. This decision will depend on the level of the fracture.

For extracapsular fractures, crossing the physis is less likely to be required.

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2. Patient preparation and approaches

Patient preparation

Depending on the approach, the patient may be placed either supine or lateral.

See also the additional material on preoperative preparation.

Approaches

For this procedure the following approaches may be used:

3. Reduction

Reduction is achieved by a combination of gentle traction, leg position, and direct reduction.

open reduction pediatric hip locking plate

In larger children and adolescents, a fracture table may aid reduction, particularly if a surgeon has limited assistance.

open reduction pediatric hip locking plate

If reduction is incomplete after traction and correction of rotation, direct reduction with a clamp may be necessary.

open reduction pediatric hip locking plate

Temporary K-wire stabilization with two divergent wires is useful at this stage. Care must be taken that the temporary K-wire(s) does not prevent insertion of the definitive wires.

open reduction pediatric hip locking plate

4. Fixation

Insertion of guide wires

After reduction, the guide wires for the pediatric hip locking plate are inserted.

This can be done using the dedicated angled guide, or by placing the wires through the plate with the screw-in guides attached to it.

An anteversion wire along the front of the femoral neck can be useful.

open reduction pediatric hip locking plate

A 2.0 mm guide wire should be inserted high in the neck starting at least 5 mm below the trochanteric apophysis. This wire can be inserted using the angled guide or freehand.

The position should be checked radiologically. On the lateral view, the wire should be in the middle of the femoral neck.

After insertion of the initial guide wire for the pediatric hip locking plate, it may be necessary to remove one or more temporary K-wires to facilitate use of the angled guide.

open reduction pediatric hip locking plate

After the initial 2.0 mm wire, two 2.8 mm wires will be inserted using the angled guide.

The 2.8 mm wires will sit just above the mid-point of the femoral neck on the AP view.

open reduction pediatric hip locking plate

Alternatively, these wires can be inserted through the plate with the locking guides attached.

open reduction pediatric hip locking plate

Plate application

With the three wires in place, the plate with locking guides can be slid over the wires onto the side of the femur.

open reduction pediatric hip locking plate

Screw insertion

The length of the screws is measured using a direct measuring device over the wire on the locking guide.

open reduction pediatric hip locking plate

At this stage, a decision should be made whether a compression screw is required. If it is, it should be inserted through the third hole in the proximal part of the plate before any other screws are inserted. The compression screw can be a cortical lag screw. The hole for this screw should be drilled parallel to the 2.8 mm K-wires.

Note: A compression screw, if used, must be inserted before any locking screws.

open reduction pediatric hip locking plate

After insertion of the compression screw, the locking screws should be inserted.

The guide-wires are removed and replaced by locking screws one at a time. This ensures that fracture reduction is maintained by at least two wires, or screws, at all times.

The shaft fragment may be controlled using a loosely applied bone-plate clamp or a partially tightened monocortical screw. Care should be taken not to disrupt the fracture reduction by overtightening the plate to the shaft.

open reduction pediatric hip locking plate

If a compression screw has not been used, the third hole in the proximal part of the plate can be used to insert a further locking screw.

open reduction pediatric hip locking plate

The plate should be secured to the shaft using an appropriate number of locking screws. This prevents any disruption of the fracture fixation. The bone-plate clamp is removed.

Definitive radiological images should be taken.

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Closure

Routine closure of the wound is performed, according to the surgeon’s preference

5. Aftercare

Immobilization and weight bearing

If the fixation is stable, no external immobilization is required.

After a day or two of bed rest, the patient can be mobilized toe-touch weight bearing using crutches or a frame.

Increased weight bearing can be introduced as the fracture is judged to be healing, depending on patient age. In an adolescent, partial weight bearing at 6 weeks and full weight bearing at 12 weeks would be typical.

in situ fixation with k wires or screws

Plate removal

If screws cross the physis, and a lot of growth potential remains, it should be removed when the fracture is healed and consolidated.

In small children, plate removal is advised to prevent bony overgrowth. Typically, this would be done at one year.

Plate removal is not compulsory in adolescents.

6. Protected weight bearing

Introduction

After surgical stabilization, the construct should be sufficiently robust to allow protected weight bearing. Smaller children may not be able to comply with this and may need immobilization.

Infection

See the additional material on postoperative infection.

Mechanics

Forces through the hip are less with toe-touch weight bearing than with no weight bearing. Therefore, toe-touch is normally recommended for initial mobilization. This needs to be taught to children by a physiotherapist.


in situ fixation with k wires or screws

Range of movement

Range-of-movement exercises should start in the immediate postoperative period to prevent stiffness. Surgeons should indicate if any extremes of movement are forbidden.

Weight bearing

Having started with toe-touch weight bearing, children progress to partial weight bearing and then to full weight bearing according to their age and the predicted rate of healing of their fracture.
Even older adolescents should be fully weight bearing without aids at three months.

Sports

Swimming can be allowed as soon as partial weight bearing is permitted.
Contact sports should be avoided for at least six months.

Follow-up x-rays

X-rays are generally taken immediately after the surgery and at 6 and 12 weeks.

Implant removal

Implants that cross the physis should be removed if there is significant growth remaining. The fracture should be healed and consolidated prior to removal (see Healing times).

Implants in young children should always be removed to prevent them from being covered by bony overgrowth.

Implant removal is not compulsory in adolescents.