- How is lymphoma of the skin treated?
- Skin-directed treatments for skin lymphomas
- Whole-body (systemic) treatments for skin lymphomas
- Clinical trials for lymphoma of the skin
- Complementary and alternative therapies for lymphoma of the skin
- Treatment for specific types of skin lymphoma
- What if the lymphoma keeps growing or comes back after treatment?
- More treatment information for lymphoma of the skin
Skin-directed treatments for skin lymphomas
In many cases, the first treatment for skin lymphoma is treating the skin lesions directly, while trying to avoid harmful side effects on the rest of the body. There are many ways to treat skin lesions.
Surgery is rarely the only treatment used for skin lymphoma. It may be used to biopsy a lymph node or other tissue to diagnose and classify a lymphoma. It might also be used to treat some types of B-cell skin lymphomas when only one or a few lesions are present and can be completely removed. Even then, other types of treatment may be used as well.
Radiation therapy uses high-energy rays to kill cancer cells. Radiation focused on a cancer from a source outside the body is called external beam radiation. The treatment is much like getting an x-ray, but the radiation is more intense. The procedure itself is painless.
The type of radiation used most often for skin lymphomas is called electron beam radiation. It uses a beam of electrons that only penetrate as far as the skin, so there are few side effects to other organs and tissues. The main side effect of electron beam therapy is a skin reaction similar to sun burn. For mycosis fungoides and Sezary syndrome, electron beam therapy is often given to the entire body. This is called total skin electron beam therapy (or TSEBT). This can sometimes cause loss of all hair on the body, as well as loss of fingernails and toenails.
Some thicker lymphomas that are not widespread (especially single lesions) are treated with high energy radiation (like x-rays or gamma rays) instead of electrons. This kind of radiation can penetrate deeper into the body. Because it can damage internal organs, the treatment is planned carefully so that most of the radiation goes only to the skin.
More information on radiation therapy can be found in the “Radiation Therapy” section of our website, or in our document Understanding Radiation Therapy: A Guide for Patients and Families.
Phototherapy (UV light therapy)
Ultraviolet (UV) light is the part of sunlight that causes sunburn and skin cancer. Phototherapy uses UV light to kill cancer cells in the skin. This is a useful treatment for some people with skin lymphomas that aren’t very thick.
Two kinds of UV light – ultraviolet A (UVA) and ultraviolet B (UVB) – can be used to treat skin lymphoma. Both UVA and UVB treatments are given with special fluorescent lamps like those used in tanning salons. Treatments are given about 3 times a week.
When UVA is used, it is combined with drugs called psoralens. This combination is referred to as PUVA. Psoralens are given as a pill about 2 hours before the treatment. The drug travels through the blood to reach cells throughout the body (including cells of skin lymphoma). When those cells are then exposed to UVA light, the drug is activated, killing them. Psoralens can cause some nausea. They can also make the skin very sensitive to sunlight (increasing the risk of severe burns), so it is important to protect yourself from sunlight as much as possible in the days after treatment.
UVB is given without any extra medicines, and is generally used for thinner skin lesions.
Just like the UV light in sunlight, these treatments can cause sunburn and may raise the risk of skin cancer later in life, so doctors try to avoid giving too much UV light.
Applying drugs directly to the skin is called topical therapy. It can be very helpful in treating many early skin lymphomas. When a drug is placed on the skin, its effects are concentrated on that spot, with much smaller amounts reaching the rest of the body. This can help limit side effects, especially for strong medicines such as some chemotherapy drugs.
Topical corticosteroids: These are drugs related to cortisol, a hormone made naturally in the body that can affect immune cells such as lymphocytes. Corticosteroid pills and injections have long been an important part of lymphoma treatment.
These drugs can also be applied directly to the skin in the form of ointments, gels, and creams. This can be very helpful in the treatment of skin lesions. When given this way, less of the drug is absorbed, resulting in fewer side effects. Long-term use of topical corticosteroids may cause the skin in that area to become thinner.
Topical chemotherapy drugs: Chemotherapy drugs are strong medicines often given by mouth or injected into a vein to treat more advanced cancers (including advanced skin lymphomas – see “Whole-body (systemic) treatments for skin lymphomas”).
Some chemo drugs can be used to treat earlier forms of skin lymphoma by placing them directly on the skin (usually in a cream or ointment). The drugs most commonly used to treat skin lymphoma include mechlorethamine (nitrogen mustard) and carmustine (BCNU). Possible side effects include redness, swelling, or irritation where the drug is applied, as well as an increased risk of other types of skin cancer in the area.
Topical retinoids: Retinoids are drugs related to vitamin A. They can affect certain genes in lymphoma cells that cause them to grow or mature.
Some retinoids, such as bexarotene (Targretin) and other drugs, come in a gel that can be applied directly to skin lesions. Possible side effects include redness, itching, irritation, and sensitivity to sunlight at the area where the drug is applied. These drugs can cause birth defects, so they should not be used by women who are or could become pregnant.
Topical immune therapies: Imiquimod (Zyclara) is a cream that causes an immune system reaction when applied to skin lesions, which may help destroy them. This drug is used mainly to treat some other types of skin cancers, but some doctors may also use it to treat early forms of skin lymphoma. It can cause redness, itching, and irritation at the site where the drug is applied.
Last Medical Review: 03/14/2013
Last Revised: 03/14/2013