- How is retinoblastoma treated?
- Surgery for retinoblastoma (enucleation)
- Radiation therapy for retinoblastoma
- Laser therapy (photocoagulation) for retinoblastoma
- Cryotherapy for retinoblastoma
- Thermotherapy for retinoblastoma
- Chemotherapy for retinoblastoma
- High-dose chemotherapy and stem cell transplant for retinoblastoma
- Clinical trials for retinoblastoma
- Complementary and alternative therapies for retinoblastoma
- Treatment of retinoblastoma based on extent of the disease
- More treatment information for retinoblastoma
Radiation therapy for retinoblastoma
This treatment uses high energy x-rays or particles to kill cancer cells or slow their rate of growth. Radiation therapy is an effective treatment for some children with retinoblastoma. Compared with surgery, it has the advantage of possibly preserving vision in the eye. But radiation therapy also has some disadvantages. (See “Possible side effects” below.)
Two types of radiation therapy can be used to treat children with retinoblastoma.
External beam radiation therapy
External beam radiation therapy (EBRT) focuses radiation beams from a source outside the body on the cancer. This was once a common treatment for retinoblastoma. But because of the side effects it can cause, it is now most often reserved for cancers that are not well-controlled with other treatments.
Before treatments start, the radiation team takes careful measurements with imaging tests such as MRI scans to determine the correct angles for aiming the radiation beams and the proper dose of radiation.
EBRT is much like getting an x-ray, but the radiation is more intense. Radiation is usually given 5 days a week for several weeks. For each session, your child will lie on a special table while a machine delivers the radiation from a precise angle. The procedure itself is painless.
Each actual treatment lasts only a few minutes, but the setup time – getting your child into place for treatment – usually takes longer. The child’s head is positioned in a custom-fitted mold that is similar to a cast used to treat broken bones. Young children may be given medicine to make them fall asleep so they will not move during the treatment.
Newer forms of radiation therapy: Many centers now use newer types of external radiation therapy, which are able to target the tumor more precisely. This lowers the doses that surrounding normal tissues get, which may help reduce side effects.
For example, intensity modulated radiation therapy (IMRT) lets doctors shape the radiation beams and aim them at the tumor from several angles, as well as adjust the intensity (strength) of the beams to limit the dose reaching the nearby normal tissues. This may let the doctor deliver a higher dose to the tumor, while reducing side effects. Many major hospitals and cancer centers now use IMRT.
Another newer technique is proton beam therapy. Protons are positive parts of atoms. Unlike the x-rays used in standard radiation, which release energy both before and after they hit their target, protons cause little damage to tissues they pass through and then release their energy after traveling a certain distance. This means that proton beam radiation may be able to deliver more radiation to the tumor and cause less damage to nearby normal tissues. Early results with proton beam therapy are promising, but it is still fairly new, and there is very little long-term data on its use for retinoblastoma. The machines needed to make protons are expensive, and there are only a handful of them in use in the United States at this time.
Possible side effects: Some of the side effects of EBRT will go away after a short while and are not serious. Short-term problems may include effects on skin areas that receive radiation, which can range from mild sunburn-like changes and hair loss to more severe skin reactions.
More importantly, EBRT can damage surrounding normal body tissues. This may eventually lead to cataracts (clouding of the lens of the eye) and damage to the retina or optic nerve, which could reduce vision. Radiation can also interfere with the growth of bone and other tissues near the eye, which can affect the way the area around the eye looks over time.
External radiation therapy can also increase the risk of developing a second cancer in the area. This is especially important in children with the hereditary form of retinoblastoma, who are already at increased risk for developing other types of cancer.
Newer forms of radiation therapy, such as IMRT and proton beam therapy, target the tumor more precisely and spare more normal tissue. This may make some of these side effects less likely than in the past.
The use of brachytherapy, also known as internal radiation therapy or plaque radiotherapy, is limited to small tumors. During brachytherapy, a small amount of radioactive material is placed on the outside of the part of the eyeball where the tumor is for a short time. The radioactive material is put in a small carrier (known as a plaque), which is shaped like a very small bottle cap. The plaque is made of gold or lead to shield nearby tissues from the radiation. The radiation travels a very short distance, so most of it will be focused only on the tumor.
The plaque is sewn in place on the eyeball with tiny stitches during a short operation. It is then removed during a second operation several days later. Both procedures are done while the child is under general anesthesia (in a deep sleep). The child typically stays in the hospital during the time between the operations.
Possible side effects: Brachytherapy is less likely to cause side effects than external radiation. The main concern is damage to the retina or optic nerve, which can affect vision. Recent advances in treatment may make this problem less likely. Brachytherapy has not been linked to an increased risk of developing a second cancer.
Last Medical Review: 08/06/2012
Last Revised: 08/06/2012