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Neonatal Jaw (Mandibular)Distraction

Mandibular distraction is a method used to increase the length of the jaw bone. It requires a surgical procedure to attach the distractors, one one each side of the jaw bone. The process of distraction occurs after surgery and usually takes between 10 and 14 days.


Distraction Osteogenesis

What is distraction osteogenesis?

Distraction osteogenesis is a way to make a longer bone out of a shorter one. After a bone is cut during surgery, a device called a distractor pulls the 2 pieces of bone apart slowly. The slow stretching apart of bone is not painful. Children say it hurts less than braces they wear to straighten teeth. New bone grows (osteogenesis) to fill the gap. This happens at home after your child leaves the hospital. The process takes a couple of months. Distraction osteogenesis allows for bigger corrections in bone position than is possible in a single traditional surgery. This improves the results and may reduce the amount of surgery a child needs over their lifetime. Through research, we have developed a shorter process compared to other hospitals. Our techniques also help prevent scarring on your child’s face.



How does distraction osteogenesis work?

In both distraction osteogenesis and traditional procedures, surgeons make a cut in a bone. A procedure may be called an osteotomy, which means cutting a bone.


  • In traditional surgery, the doctor uses bone grafts to lengthen bones. In some cases, a bone is moved and held in its new position with metal plates and screws.
  • In distraction osteogenesis, a surgeon attaches a device called a distractor to the cut bone. Sometimes the distractor is placed under the skin. Other times it is attached to a child’s skull and face bones on the outside of their skin.

The type of distractor used depends on the bones that need to grow. The devices are approved by the Food and Drug Administration. All devices are made of a lightweight hypoallergenic metal called titanium.

For midface distraction surgery, the device is usually a U-shaped headframe. The surgeon fastens it around the top of your child’s head and attaches it with special screws called “pins.”
A vertical metal bar attaches to the headframe in front of your child’s forehead. At the level of the mouth, the vertical bar attaches to a horizontal bar that has a turning arm. The surgeon wires the turning arm to a dental splint bonded to the upper teeth. Sometimes wires also connect to tiny pins placed in your child’s face. The headframe has an opening in back. Children say it is not a problem to sleep with the device on.

For lower jaw (mandible) distraction, the devices are smaller. Often they fit under the skin. A small post passes through the skin to adjust the device. For 2 to 3 weeks after surgery, while your child is at home, a parent or caregiver turns 1 or more screws on the distractor 1 to 2 millimeters a day. This keeps tension on the wires and moves the face bones apart. New bone then grows to fill in the gaps. New bone starts out like taffy and hardens over time. Once the bones are in the right position, turning stops. The bones heal in their new positions. This is called consolidation, or the “healing phase.” It lasts 1 to 2 months.

Your child will have to eat soft foods for the entire time the distractor is on. They will need to visit Seattle Children’s often so we can check that the distractor is working properly and decide when to stop turning. At some visits your child will get X-rays of their face. We may need to make small adjustments to the distractor.


What types of distraction osteogenesis are done ?

Distraction osteogenesis is an option for many surgeries that move bones in the skull and face into better positions. Our team works together and with you to decide if the best result will be achieved with or without distraction osteogenesis.


    Surgeons in our Craniofacial Center use distraction osteogenesis in these procedures:
  • Posterior cranial vault distraction to give the brain room to grow
  • Monoblocfrontofacial advancement to reposition the forehead and midface
  • Segmental subcranial distraction to normalize the proportions of the face
  • Subcranial rotation distraction to improve the airway and jaw position
  • Le Fort I maxillary advancement to correct upper jaws that have not grown properly
  • Le Fort III midface advancement to move the middle of the face forward
  • Mandible distraction for a lower jaw has not formed properly