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Imaging Tests

If your doctor suspects an ankle fracture, they will order imaging tests to provide more information about your child's injury.

X-rays. The most common way to evaluate a fracture is with X-rays, which provide clear images of bone. X-rays will usually show whether a bone is normal or broken.

Computed tomography (CT). CT scans  can create a specific cross-section image of the ankle bones. This is especially useful when the fracture extends into the ankle joint and when surgery is being considered.

Magnetic resonance imaging (MRI). If the physical examination suggests a fracture but the X-rays do not show a fracture, the doctor may order a magnetic resonance imaging (MRI) scan. MRI scans tests provide high-resolution images of both bones and soft tissues, such as ligaments.

Type I and Type II Fractures

Type I fractures break through the bone at the growth plate, separating the bone end from the bone shaft and completely disrupting the growth plate. Type II fractures break through part of the bone at the growth plate and crack through the bone shaft. Both of these types of fractures can usually be treated without surgery.

Type III and Type IV Fractures

Type III and type IV fractures are more prone to developing a growth disturbance, which may result in a crooked ankle. It is especially critical that the bone be aligned as perfectly as possible in these fractures. Often, surgical treatment is needed to better align and stabilize these fractures.

Type V Fractures

Type V fractures are usually identified long after the fracture has healed when a growth disturbance develops.

Non-displaced Fractures

A fracture that is properly aligned needs only to be stabilized in a walking boot or cast to allow for proper healing. Your child's doctor will guide you on when it is safe for your child to put weight on the injured ankle. these fractures should be healed in 4 to 6 weeks. 

Displaced Fractures

Your child will need more aggressive treatment if the fracture pieces are displaced (moved out of normal alignment). The first step is to realign the bones without making any cuts in the skin (closed reduction). this is often done in the emergency room or operating room with your child sedated. If the bone fragments are successfully realigned, a cast is applied to maintain proper alignment.

The child will need surgical treatment if the surgeon cannot properly align the bone pieces in a closed reduction, particularly if the fracture involves the ankle joint (Type III and Type IV fractures). This occurs most often because soft tissue, like muscle, gets between the edges of the bones. Open reduction surgery enables the surgeon to see the bone pieces directly and typically allows the bones to be more perfectly aligned.

Frequently, the doctor will insert a metal plate and/or screws after an open reduction to maintain the bone fragment position for healing. Internal screw fixation also adds stability and allows for less external immobilization. For example, the child may need only a walking boot if screws are inserted; without screws, the child would have needed a cast. 

Distal Fibular Fractures

When just the fibula is injured in the ankle, it is most often a Salter-Harris Type I or II fracture. These isolated fractures most often result from low-energy trauma, such as a fall from standing height. Isolated distal fibular fractures generally heal well when treated with a  walking boot or short-leg walking cast.

Triplane Fractures

A triplane fracture is a complex injury pattern seen in more physically mature adolescents when the growth plate is starting to close. A triplane fracture is a Salter-Harris Type IV fracture involving three different fracture planes. These fractures extend through the metaphysis (the widened part of the shaft of the bone), the physis (growth plate), and the epiphysis (end of the bone).

The distal tibia of a growing child comprises three sections: the physis, epiphysis, and metaphysis.

Treatment of triplane fractures depends on the amount of displacement between the bone fragments. Minimally displaced and non-displaced triplane fractures can be treated with a long-leg cast. However, these fractures are often displaced and need to be treated with open reduction and internal fixation with screws, which allows the reduction to be more easily maintained.

This CT scan of the ankle taken from the front (left) and from the side (right) shows a triplane fracture. Note the fracture plane is different in each view. The fracture also runs across the growth plate, resulting in three fracture planes (triplane).

Tillaux Fractures

Named after a French surgeon, Tillaux fractures are Salter-Harris Type III fractures in the front and outside area of the lower part of the tibia that extend through the growth plate and into the ankle joint.  Tillaux fractures account for 3% to 5% of pediatric ankle fractures and typically occur in late adolescence when the growth plate is starting to close. The fracture fragments tend to be loose/unstable and are treated with open reduction and screw fixation.

In this Tillaux fracture, the blue arrow shows a widening of the growth plate, and the red arrow shows the fracture extending through the epiphysis and into the joint.

During surgery to treat this Tillaux fracture, the bone fragments have been set into alignment and held together with a screw fixation.

Medial Malleolus Fractures

The medial malleolus is the boney bump on the inside of the ankle. When a child twists their ankle, the medial malleolus can fracture. This results in a small, often unstable fragment. Because medial malleolus fractures tend to occur in younger patients, problems arising from a growth disturbance can be more severe. If the fragment is non-displaced or minimally displaced, it can be treated with a long-leg cast. Because this fracture fragment is small and usually unstable, it is usually treated with screw and/or pin fixation.

This X-ray shows a fractured and displaced medial malleolus. The bone fragment was reduced to its normal position and stabilized with a screw and two pins. Screw fixation alone is typically adequate.