Microtia occurs when there is a problem with the development of the ear in the embryo. The deformity is thought to be due to an abnormality of the blood vessel supplying the area around the ear in the embryo. This is still uncertain, and nobody knows what causes this to happen. Occasionally it is due to an inherited defect, but more often it is a one-off condition that the child with microtia will not pass on to their own children.

There is no evidence that anything a mother does during pregnancy causes microtia.

In some cases of microtia the hearing may be normal or partly reduced and not require any treatment. Patients with microtia may not have an external ear canal, but this does not necessarily mean that they cannot hear on that side, as the inner ear may be normal. In others, there may be problems with the formation of the middle ear which can affect hearing.

Children with unilateral microtia with absence of the ear canal on that side will often have problems identifying which direction a sound is coming from.

Your child will need to have audiograms to test their hearing, and also a CT scan to look at the small bones in the middle ear to determine whether or not hearing can be improved in the ear.

The CT scan is also used to determine the position of the facial nerve as it passes through the middle ear. The position of the facial nerve in the middle ear can also determine if it is possible to reconstruct an ear canal on the affected side. As any surgery to restore hearing is usually done after reconstruction of the external ear, a CT scan is often not done until after seven years of age at which time they may not require a general anaesthetic for the scan.

It is important that microtia and other ear deformities are treated by surgeons specializing in these conditions to ensure the best chance of a good result. The treatment of microtia needs to address the functional problems (hearing loss) as well as the aesthetic concerns (how the ear looks). Not all children with microtia will have problems with their hearing. Your child will be seen in a special clinic by doctors and health professionals from the following areas:

• Plastic surgeons, who are involved with making a new external ear.
• ENT (ear, nose and throat) surgeons, who are involved with restoring or improving hearing to the affected ear (if needed).
• Craniofacial surgeons if the jaw or other bones of the face are involved (in cases of craniofacial microsomia).
• Geneticists who can advise you further on the possibility of future children being affected.

To create a new ear, the choices are either to use tissue from the patient’s own body (autogenous reconstruction), to use synthetic materials (alloplastic reconstruction), or a combination of the two.

Autogenous reconstruction involves making a new ear from the patient’s rib cartilage which is then placed under the skin on the side of the scalp where the ear should have been. The ear lobe that is usually present is repositioned into its normal position. A second operation is required to lift the ear out from the side of the head and create the groove behind the ear with a skin graft.

An alloplastic reconstruction can involve either a plastic clip-on ear (osseointegrated prosthesis), which attaches to surgically placed studs in the bone on the side of the head, or the use of a material called Medpor (porous polyethylene), which is placed under the skin in a similar manner to the rib cartilage in an autogenous reconstruction. Sometimes your child may require surgery to pin back the other ear to more closely match the reconstructed one.

The answer is probably an autogenous reconstruction using the patient’s own rib, but in some cases an alloplastic reconstruction may be preferred.

The advantage of an autogenous ear reconstruction is that it is more resistant to trauma, and hence can be treated more like a normal ear after the completion of surgery. It also has less risks of future infection or exposure than a Medpor ear. A clip-on osseointegrated prosthesis requires much more long-term maintenance in terms of keeping the studs clean, and there can also be problems getting the ear prosthesis to have solid fixation to the head. It is important to remember that if an osseointegrated prosthetic reconstruction is performed it is not possible to have an autogenous reconstruction later.

Ear reconstruction can be performed any time from around the age of six years, but is often deferred until the child requests surgery (8–10 years of age). At this time the rib cartilage is also large and strong enough to be carved properly into an ear. Some children are not concerned about their ear deformity and never request a reconstruction, so it is important that your child is involved in any decision for surgery.

Your child will usually be admitted to hospital on the day of the surgery. The procedure is performed under a general anaesthetic and takes about four hours. A tracing will be made of the normal ear which will be used to design the framework for the reconstruction. Cartilage is harvested from the chest wall, through an incision which is around 10cm long. The cartilage from about three ribs is removed and carved into a framework which is designed to resemble the other ear. A drain will often be placed into the chest wound.

Depending on the ear remnants present on the microtic side, some of the parts may be used to make up some of the new ear, usually the lobule. Most of the abnormal ear cartilage is removed, and a skin pocket is formed, into which the cartilage framework is placed. A suction drain is used to encourage the skin to redrape over the framework, and the skin is closed.

The suction drain will be watched closely over the first few days, in order to ensure the skin sucks into all the crevices of the cartilage. The drain is removed after four days.

The second stage of the ear reconstruction, which involves elevation of the created ear from the side of the head, is performed several months after the first stage.

An incision is made around the back of the new ear, and the ear is lifted up from the side of the head. Some cartilage from the first operation, which has been stored in the chest scar, is placed under the ear to help to hold it out from the head. The new groove behind the ear is covered with some tissue from under the scalp and then covered with a skin graft to line the new groove with skin. A drain is placed in the scalp, and dressings are put on.

The hospital stay after the second operation is usually shorter (often only overnight).

Instead of using rib cartilage to make the ear framework, an arti•cial framework made of porous polyethylene (Medpor) can be used. This is covered by the patient’s own skin and a flap of tissue taken from the scalp. Skin grafts are also used, but a projecting ear can be made after one operation. Good results can be achieved but a second operation to add details to the ear will be needed and the framework may not be as resistant to infection or trauma as a rib reconstruction.

Sometimes a third procedure is necessary to trim off some excess skin from the ear, or to perform some minor adjustments to the ear, in order to obtain the best possible final result. Surgery may be performed on the other ear to help obtain better final symmetry. Laser hair removal is sometimes done to remove excess hair on the ear, or to improve the hairline before placing the ear in position.

Surgery to reconstruct a new ear canal and eardrum may be attempted in cases where the inner ear is normal, the middle ear is properly aerated and the overall structure of the skull around the ear is adequate to allow room for the new ear canal. A CT scan is performed to demonstrate these anatomical factors.

If it is possible, then this is usually done as a separate procedure by the ENT surgeons, after the reconstruction of the external ear is complete. This involves creating an opening down to the middle ear, making an ear drum, and then lining this tunnel with a skin graft. In cases where the structure (anatomy) of the ear is not suitable for reconstruction of the ear canal and hearing, an osseointegrated (fixed to the bone) screw fixture can be used to attach a hearing aid directly to the skull behind the ear. This allows more effective sound transmission to the inner ear. Placement of the screw fixture requires a relatively minor surgical procedure.