Evaluation and Management of Women With BRCA1/2 Mutations
Evaluation and Management of Women With BRCA1/2 Mutations
More than a decade has passed
since the cancer predisposition
genes BRCA1 and
BRCA2 were cloned. Collectively,
these genes are responsible for virtually
all hereditary breast/ovarian cancer
families as well as a smaller subset
of hereditary site-specific breast cancer
families. Their discovery helped usher
in a new age of predictive and preventive
medicine for those at risk of
breast and ovarian cancer, two of the
most common forms of cancer in women
in the United States. Peshkin and
Isaacs provide an excellent summary
of cancer susceptibility due to inherited
mutations in BRCA1 and BRCA2,
including approaches to assessing personal
and family history for the likelihood
of finding these mutations, their
associated cancer risks, and options for
Variants of Uncertain Significance
The first step in assessing an individual for BRCA1/2 genetic testing is to determine the likelihood of finding a mutation. Peshkin and Isaacs summarize the features of BRCA1/2 associated families, and some of the available models used to determine the likelihood of finding a positive result are reviewed. The expense of BRCA1/2 testing is used to illustrate why identifying an at-risk population with such models is preferable to a broader testing approach. Both limiting expense and properly allocating limited genetic counseling resources are excellent reasons to utilize such predictive models; another is the issue of the "variant of uncertain significance" (VUS). Although sequencing typically returns a clear-cut "positive" result, meaning a deleterious mutation has been identified, or a "negative" result, meaning no significant sequence variant has been found, on occasion an equivocal result is found. Known as a VUS, this result often indicates a missense mutation for which the effect on protein function is unknown. The incidence of finding a VUS varies with ethnicity, with Myriad Genetic Laboratories observing about a 9% rate in those of European ancestry, 16% in those of Asian descent, and 29% in individuals of African descent (personal communication, Myriad Genetics, May 2005). Many investigators are working to develop methods of assessing the functional significance of these variants. In addition, existing databases (Myriad Genetics and the Breast Information Core) can provide data that may suggest that a particular VUS is either a polymorphism or a deleterious mutation. Despite these efforts, many VUS results remain uninterpretable. Using current clinical testing techniques, those who have less than a 10% chance of having a detectable deleterious mutation are less optimal candidates for testing, as the chance of finding an uninterpretable result exceeds the chances of finding useful information. Barriers to Genetic Counseling
Apart from equivocal results, another significant barrier to participation in cancer genetic counseling programs is fear of insurance discrimination. There is scant evidence of health insurance discrimination based specifically on genetic testing information, and many health insurance companies have explicitly stated they will not use genetic information. In addition, a variety of federal and state laws make it unlikely that genetic testing information will affect access to health insurance or appropriate insurance rates for anyone in a group health plan. Although there are clearly individuals excluded from the legal protection of existing legislation, the perception that once genetic risk is discovered a patient will lose her health insurance coverage has not been borne out; however, this fear prevents many individuals from even presenting for genetic counseling. National comprehensive genetic nondiscrimination legislation could provide the assurance many individuals need in order to seek out cancer genetics services for themselves. High-risk women who decline to participate in counseling programs sometimes have a limited awareness of the impact that genetic information could have on an individual's health care. Peshkin and Isaacs lay out the options available to those with increased cancer risks and provide a useful summary table of breast and ovarian cancer screening recommendations and cancer risk-reduction strategies for women with germ-line BRCA1/2 mutations. Unfortunately, despite the effective measures that are available, the misconception that there is nothing one can do other than worry about oneself and one's family continues to be a barrier to participation in genetic counseling. We clearly need to raise awareness in both the medical and lay communities about the mounting evidence supporting the efficacy of these interventions. Peshkin and Isaacs wisely point out that prevention and screening strategies must be individualized, and in many cases, there are several rational options for follow-up. Risk-Reduction Measures
For a woman who already has had breast cancer, the risk of a second breast cancer may lead to enhanced surveillance including annual breast magnetic resonance imaging and consideration of prophylactic mastectomy. In addition, Metcalf et al found that 25% of the deaths in women who carried BRCA1/2 mutations with stage I breast cancer were due to a subsequent ovarian cancer. This substantial risk of ovarian cancer, even after a breast cancer diagnosis, means such a woman should strongly consider bilateral prophylactic oophorectomy with or without hysterectomy postchildbearing. In addition, Metcalf et al and Narod et al have shown that women with BRCA1/2 mutations who have had breast cancer and take tamoxifen can reduce their risk of a contralateral breast cancer by 30% to 50%. Thus, effective strategies to reduce the risk of cancer exist even for women who have already had cancer. Bilateral prophylactic oophorectomy is one of the most significant riskreducing options available to women who carry BRCA1/2 mutations. Those who choose this intervention will lower their risk of ovarian cancer by 96%, and women who have this procedure performed premenopausally will also lower their breast cancer risk by 50% to 70%. However, some women are reluctant to proceed with this intervention due to concerns about the sequelae of early and abrupt menopause. Results of a study by Rebbeck et al suggest that women with BRCA1/2 mutations will reduce their risk of breast cancer through bilateral prophylactic oophorectomy irrespective of their subsequent decision about hormone replacement therapy, at least in the short term. Short-term use of hormone replacement tailored to manage postoperative menopausal symptoms has very different implications for breast cancer risk than long-term hormone exposure in postmenopausal women. Thus, women with BRCA1/2 mutations should not deferbilateral prophylactic oophorectomy- which may be lifesaving- because of concerns about the immediate impact of menopausal symptoms on their quality of life. Conclusions
Identifying a BRCA1/2 mutation means that hereditary risk can be tracked within a family, and expensive and intensive follow-up can be reserved for those who are without question at high risk. Learning about the presence of genetic risk for breast and ovarian cancer can be frightening, but as summarized by Peshkin and Isaacs, there are many effective strategies now available for both prevention and earlier detection.
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