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Authors of section

Authors

Arnold Besselaar, Daniel Green, Andrew Howard

Executive Editor

James Hunter

General Editor

Fergal Monsell

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Closed reduction; immobilization

1. General considerations

Indications

Reduction and immobilization with a long-leg or spica cast should only be used if it produces and maintains a stable reduction. Careful clinical and radiological follow-up is recommended until union.

Choice of immobilization

If there is severe soft-tissue swelling, it may be safer to considering surgical fixation.

It is important not to immobilize the limb for longer than 4 weeks to avoid knee stiffness. Conversion to a brace allows early mobilization of the knee.

Long leg cast

Complications

  • Loss of reduction
  • Compartment syndrome
  • Pressure sores

Splinting

If severe swelling is interfering with circumferential casting, a splint may be applied until swelling resolves.

With the knee in 60° flexion, apply slabs of plaster of Paris posteriorly along the whole leg, covering half of the circumference.

Secure the splint with an elastic bandage.

2. Preparation

Read the additional material on preoperative preparation.

Material

  • Tubular bandage (stockinette) of appropriate size
  • Cast padding
  • Felt
  • Casting material: fiberglass, plaster of Paris or a combination of both
  • Water

The water temperature should ideally be between 22° and 25° C.

Colder water, or a bandage that is wetter, increases working time, while warmer water, or a bandage that is drier, reduces the working time.

Material for cast application

3. Reduction

Place the anesthetized patient supine on a radiolucent table.

Because of the irregularity of the distal femoral physis reduction must be applied with care.

Gentle, prolonged longitudinal traction is the most important maneuver to avoid damage to the growth plate.

After a sufficient period of traction, gently manipulate the limb to reduce the fracture.

An assistant should be available to apply countertraction.

Gentle, prolonged longitudinal traction

In the more common extension-type fracture, initially apply traction with the knee in 30°–45° flexion and then gently flex the knee to 90°, maintaining longitudinal traction.

Confirm reduction with image intensification.

Closed reduction of extension-type fracture

In a flexion-type fracture, initially apply traction with the knee flexed to 45° and then gently extend the knee.

Confirm reduction with image intensification.

Closed reduction of flexion-type fracture

In a valgus displaced fracture, initially apply longitudinal traction to the knee and then gently apply a varus force to the leg.

Closed reduction of valgus displaced fracture

In a varus displaced fracture, initially apply longitudinal traction to the knee and then gently apply a valgus force to the leg.

Closed reduction of varus displaced fracture

Confirm reduction with image intensification.

In SH I and II fracture patterns, there is a risk of incarcerated periosteum.

If a gap remains after reduction, a small open approach may be required to release the periosteum.

If open reduction is necessary, internal fixation is recommended.

Incarcerated periosteum in Salter-Harris I fracture

Check for stability of reduction

Check stability with image intensification.

Casting without fixation is only appropriate if the reduction remains stable.

If there is any sign of instability, consider internal fixation.

4. Long leg cast

Leg positioning

The patient should be positioned on the edge of the table or with a bump under the sacrum to facilitate bandaging into the groin.

An assistant supports the leg with 45°–60° hip flexion.

The patient’s knee should be flexed to approximately 60°, which will prevent the cast from slipping.

Patient and leg positioning

Dressing

Apply the tubular bandage and cut it slightly longer than the length of the final cast.

Dressing for long leg cast

Padding

The distal edge of the cast extends to the base of the toes.

The proximal edge lies just above the greater trochanter on the lateral side, and just below the groin on the medial side.

Apply a layer of cast padding.

Consider adding thick felt over the padding at the free edges of the cast.

Overlap each layer by 1/2.

The tubular bandage and padding should be applied without creases.

Padding for long leg cast

Apply additional cast padding over the patella, malleoli, ankle, and heel, to protect these areas from pressure sores.

It should be appreciated that, when more padding is applied, there will be less support at the injury site.

Cast application

Apply a first layer of cast material to the leg starting distally.

Overlap each layer by 1/2.

Take care not to create sharp ridges at the level of the popliteal fossa.

Apply further layers of cast material to produce sufficient stability.

Cast application
Pearl: Take care to avoid pressure over the fibular head and neck, to prevent compression of the common peroneal nerve that could cause neurapraxia, or permanent nerve damage.

Fold the tubular bandage and padding over the edges before applying the final layer of casting material.

Folding bandage and padding over the edges

Final molding

While the cast is still soft, create a supracondylar mold and a varus or valgus mold to counter the potential direction of displacement, determined by the configuration and level of the fracture.

Gently mold the cast to the curve of the tibia and around the knee.

Pressure should be continued until the cast hardens.

Cast molding

5. Spica casting

In very small children a long leg cast may be difficult to apply and a hip spica cast may be necessary as an alternative.

Spica casting

6. Confirmation of reduction

After completion of the cast, check the fracture configuration with x-rays in both planes.

7. Aftercare

Immediate postoperative care

The patient is kept touch-weight bearing to decrease forces across the fracture. Older children may be able to use crutches or a walker. For younger children, bed rest and a wheelchair is more reliable.

Touch-weight bearing with immobilization

Analgesia

Routine pain medication is prescribed for 3–5 days after injury.

Neurovascular examination

The patient should be examined frequently, to exclude neurovascular compromise or evolving compartment syndrome.

With displaced high-energy fractures, watch for signs of delayed vascular problems.

Follow-up

The first clinical and radiological follow-up is usually undertaken 5–7 days after injury to confirm reduction.

Cast removal

Physeal fractures heal quickly and the cast is typically removed 3–6 weeks after injury.

Mobilization

After conversion from a cast to a brace, patients are encouraged to start range-of-motion exercises, without weight bearing, preferably under supervision of a physiotherapist.

Sports, running, and jumping is not recommended for three months.

Touch-weight bearing with crutches

Follow-up for growth deformity

All patients with physeal fractures of the distal femur should have clinical and radiological examination 8–12 weeks postoperatively to assess for signs of physeal growth disturbance or resumption of growth.

Examination should be repeated at intervals until resumption of normal growth is documented. This can be seen as a horizontal growth line (Harris line) that is parallel to the entire physis on both AP and lateral views.

A growth line that converges towards the growth plate may be the earliest sign of growth arrest and should prompt investigation/treatment or referral as appropriate.

X-ray of the knee showing growth lines

Clinical assessment of leg length and alignment is recommended at one-year.

Clinical assessment of leg length uses a tape measure from the ASIS to the medial malleolus.

Clinical assessment of leg length

If there is any concern about leg length discrepancy or malalignment, long leg x-rays are recommended.

Leg length is measured from the femoral head to the ankle joint.

Radiological assessment of leg length