New research found a more than four-fold increase in the incidence of breast cancer in women with neurofibromatosis-1 (NF1), which adds to evidence that women with this rare genetic disorder may benefit from early breast cancer screening (mammograms) beginning at age 40, and manual breast exams as early as adolescence.
The normal NF1 gene is one of a number of so-called tumor suppressor genes. Roughly one in 3,000 Americans (equal numbers of males and females) has a mutated copy that no longer functions properly and allows tumors to grow unchecked. About half of people with NF1 inherit an NFf1 gene mutation from a parent, and the other half are the first in their family to have an NF1 gene mutation.
In a small study of 126 women with NF1 at the Johns Hopkins Comprehensive Neurofibromatosis Center, the researchers identified four cases of breast cancer, a four-fold increased risk for breast cancer in women with NF1 compared to the general population of women under the age of 50. NF1 is characterized by the uncontrolled growth of mostly non-cancerous tumors along the body's nerves, often resulting in pain and disfigurement.
Beyond their implications for breast cancer screening guidelines for women with NF1, the findings may also shed light on the origins and nature of breast cancer in those without the syndrome, the researchers say, because other recent studies suggest that some women without neurofibromatosis-1 had breast cancers fueled primarily by an NF1 mutation. A recent study estimated that 3 percent of all breast cancers in the general population are caused by NF1 mutations that arise spontaneously.
"When we study rare populations intensively, we learn things that also may be factors in very common diseases, like breast cancer," says Jaishri Blakeley, M.D., an assistant professor of neurology, neurosurgery and oncology at Johns Hopkins University School of Medicine and leader of the new study. "What we learn from this population will help us learn more about the subtleties of different types of breast cancers."
Blakeley says the results show the need for medical specialty societies to develop guidelines recognizing NF1 patients under the age of 50 as a group at increased risk for breast cancer. Guidelines developed by medical societies would change clinical practice and, just as importantly, encourage insurance companies to pay for potentially lifesaving screening in younger women with the debilitating disease, the researchers add.
"There are guidelines for how to care for women at high risk for breast cancer because of a family history of the disease, or because they have the BRCA genetic mutations, but there are no guidelines for women with NF1," Blakeley says. "Women with NF1 haven't even been on the radar as a high-risk population. Now that we increasingly understand the risk, we have to make sure doctors are talking to their patients about the benefits and risks of early screening."
Blakeley says she recommends that her NF1 patients get a manual breast exam from a physician annually, beginning in their teens. She recommends mammograms beginning at age 40, 10 years earlier than current National Cancer Institute guidelines for the general population. Research has not yet determined the ideal time for NF1 patients to get their first mammograms; some physicians suggest age 30, the age recommended for women with BRCA mutations. Blakeley says that because radiation exposure can sometimes trigger benign tumors to change to malignant tumors in NF1 patients, she worries about an extra 10 years of radiation exposure due to mammography.
In people with NF1, tumors often are on, or just below, the skin and can be disfiguring and painful, depending on where they are located. They can also appear in the brain and large nerves of the body, resulting in neurologic injury. Sometimes the tumors are surgically removed or treated with chemotherapy or radiation. However, these interventions can be risky and do not result in a cure, so many of those affected must live with the tumors and the disfigurement or pain that may accompany them, says Amanda Bergner, M.S., CGC, an assistant professor of genetics and neurology at Johns Hopkins who contributed to the research.