GURNEE, IL, October 12, 2010 (Press-News.org) FORCE is there for patients with family histories and hereditary risks of breast and ovarian cancer. Visit the website http://www.facingourrisk.org/index.php to learn more the vital work FORCE is doing to help families with this genetic risk.
Your FORCE friends can not wait to celebrate especially in light of Congress just passing Hereditary Breast & Ovarian Cancer Awareness Week + Previvor Day! It is an EXCITING time to be part of our sweet community and hope you are able to get out there to show your support. Without your donations and volunteerism, FORCE simply would not exist.
The BRAC genes are the best known genetic mutation and are found in highest numbers in people of Eastern European Jewish descent. They are not limited to this group and are also found in many patients without this heritage.
We really need YOU to sign up to sign up to help Strike out cancer! Friends & family are totally welcome! The more people who attend the more money we raise to help support and educate others on hereditary breast and ovarian cancer.
The night will be loaded with fun! Including, tasty apps donated by Whole Foods, yummy burritos donated by Chipotle, and delish desserts by Deerfield's Bakery & Bent Fork Bakery.
The raffle is UNREAL worth over $5,000 of prizes and growing and you don't need to be at the event to win the raffle!!!!
Fenner Medical Spa ($1,200 Gift Card for 3 Fraxel Laser Treatments)
Fenner Medical Spa ($100 Facial)
Betsy Johnson Betseyville Purse ($100 Value)
Estreet Denin ($100 Gift Card)
Salon Vole of Highland Park ($50 Value - (2) Gift Cards)
Lulumon of Northbrook Court Class for 10 ($100 Value)
Aveda of Northbrook Court Facial Service and Gift Basket ($75 Value)
Soma Intimates of Northbrook Court ($50 Gift Card)
Tommy Bahama of Northbrook Court Gift Basket ($50 Value)
Lettuce Entertain You ($50 Gift Card)
Enaz of Highland Park Gift Basket ($50 Value)
The Bootery of Highland Park ($25 Gift Card)
Table Compliments of Highland Park Spoon Set ($25 Value)
Anthropologie of Highland Park ($50 Gift Card)
Indigo Clothing in Highland Park ($75 Gift Card)
Goodies of Highland Park ($10 Gift Card)
Confectionary of Highland Park ($25 Gift Card)
High Tops of Highland Park ($15 Gift Card)
Beanstalk Toys Store Gift Bag ($300 Value)
Ross Cosmetics Gift Basket ($60 Value)
Papersource of Highland Park Card-making Class for 6 ($120 Gift Card)
Martha Abelson Photography Photoshoot ($375 Value)
Enamour Photography Photoshoot www.enamourphotography.com ($450 Value)
Teeth Whitening Package from Delaney Dental
Carol's Cookies Gift Card ($60 Value)
Viccino's Pizza Gift Cards ($40 Value)
ABT Electronics Gift Card (TBD)
Skydeck Chicago (Willis Tower) 4 Tickets ($48 Value)
Museum of Science and Industry 4 Tickets ($48 Value)
Cheesecake Factory Lincolnshire ($25 Value)
Cooper's Hawk Wine Tasting for 10 ($100 Value)
LaurenCeleste Baby Layette ($60 Value)
Zhu Zhu Pet Package ($150 Value)
Stacy Givon Jewelry Package ($500 Value)
Robeez Baby Shoes ($30 Value)
Francesca's of Highland Park Gift Basket ($50 Value)
The Perfect Setting of Lake Forest ($50 Gift Card)
Autographed Bears Player Merchandise ($100 Value)
Autographed '10 Stanley Cup Champion Blackhawks Ben Eager Picture ($100 Value)
Chicago White Sox signed ball by Andru Jones ($100 Value)
2 Teeth Whitening Packages from Delany Dental (Value TBD)
Thanks to our most generous donation from Delany Dental http://www.delanydentalcare.com/ with an entire Smile Make-over worth $16,000 that will be part of an exclusive Silent Auction.
Details to follow soon or if you are interested in learning more please email heatherf@facingourrisk.org
The following iformation is from the National Cancer Institute
US National Institute of Health
"BRCA1 and BRCA2: Cancer Risk and Genetic Testing
Key Points
BRCA1 and BRCA2 are human genes that belong to a class of genes known as tumor suppressors. Mutation of these genes has been linked to hereditary breast and ovarian cancer (see Question 1).
A woman's risk of developing breast and/or ovarian cancer is greatly increased if she inherits a deleterious (harmful) BRCA1 or BRCA2 mutation. Men with these mutations also have an increased risk of breast cancer. Both men and women who have harmful BRCA1 or BRCA2 mutations may be at increased risk of other cancers (see Question 2).
Genetic tests are available to check for BRCA1 and BRCA2 mutations. A blood sample is required for these tests, and genetic counseling is recommended before and after the tests (see Question 5).
If a harmful BRCA1 or BRCA2 mutation is found, several options are available to help a person manage their cancer risk (see Question 11).
Federal and state laws help ensure the privacy of a person's genetic information and provide protection against discrimination in health insurance and employment practices (see Questions 14 and 15).
Many research studies are being conducted to find newer and better ways of detecting, treating, and preventing cancer in BRCA1 and BRCA2 mutation carriers. Additional studies are focused on improving genetic counseling methods and outcomes. Our knowledge in these areas is evolving rapidly (see Question 18).
What are BRCA1 and BRCA2?
BRCA1 and BRCA2 are human genes that belong to a class of genes known as tumor suppressors.
In normal cells, BRCA1 and BRCA2 help ensure the stability of the cell's genetic material (DNA) and help prevent uncontrolled cell growth. Mutation of these genes has been linked to the development of hereditary breast and ovarian cancer.
The names BRCA1 and BRCA2 stand for breast cancer susceptibility gene 1 and breast cancer susceptibility gene 2, respectively.
How do BRCA1 and BRCA2 gene mutations affect a person's risk of cancer?
Not all gene changes, or mutations, are deleterious (harmful). Some mutations may be beneficial, whereas others may have no obvious effect (neutral). Harmful mutations can increase a person's risk of developing a disease, such as cancer.
A woman's lifetime risk of developing breast and/or ovarian cancer is greatly increased if she inherits a harmful mutation in BRCA1 or BRCA2. Such a woman has an increased risk of developing breast and/or ovarian cancer at an early age (before menopause) and often has multiple, close family members who have been diagnosed with these diseases. Harmful BRCA1 mutations may also increase a woman's risk of developing cervical, uterine, pancreatic, and colon cancer (1, 2). Harmful BRCA2 mutations may additionally increase the risk of pancreatic cancer, stomach cancer, gallbladder and bile duct cancer, and melanoma (3).
Men with harmful BRCA1 mutations also have an increased risk of breast cancer and, possibly, of pancreatic cancer, testicular cancer, and early-onset prostate cancer. However, male breast cancer, pancreatic cancer, and prostate cancer appear to be more strongly associated with BRCA2 gene mutations (2-4).
The likelihood that a breast and/or ovarian cancer is associated with a harmful mutation in BRCA1 or BRCA2 is highest in families with a history of multiple cases of breast cancer, cases of both breast and ovarian cancer, one or more family members with two primary cancers (original tumors that develop at different sites in the body), or an Ashkenazi (Eastern European) Jewish background (see Question 6). However, not every woman in such families carries a harmful BRCA1 or BRCA2 mutation, and not every cancer in such families is linked to a harmful mutation in one of these genes. Furthermore, not every woman who has a harmful BRCA1 or BRCA2 mutation will develop breast and/or ovarian cancer.
According to estimates of lifetime risk, about 12.0 percent of women (120 out of 1,000) in the general population will develop breast cancer sometime during their lives compared with about 60 percent of women (600 out of 1,000) who have inherited a harmful mutation in BRCA1 or BRCA2 (4, 5). In other words, a woman who has inherited a harmful mutation in BRCA1 or BRCA2 is about five times more likely to develop breast cancer than a woman who does not have such a mutation.
Lifetime risk estimates for ovarian cancer among women in the general population indicate that 1.4 percent (14 out of 1,000) will be diagnosed with ovarian cancer compared with 15 to 40 percent of women (150-400 out of 1,000) who have a harmful BRCA1 or BRCA2 mutation (4, 5).
It is important to note, however, that most research related to BRCA1 and BRCA2 has been done on large families with many individuals affected by cancer. Estimates of breast and ovarian cancer risk associated with BRCA1 and BRCA2 mutations have been calculated from studies of these families. Because family members share a proportion of their genes and, often, their environment, it is possible that the large number of cancer cases seen in these families may be due in part to other genetic or environmental factors. Therefore, risk estimates that are based on families with many affected members may not accurately reflect the levels of risk for BRCA1 and BRCA2 mutation carriers in the general population. In addition, no data are available from long-term studies of the general population comparing cancer risk in women who have harmful BRCA1 or BRCA2 mutations with women who do not have such mutations. Therefore, the percentages given above are estimates that may change as more data become available.
Do inherited mutations in other genes increase the risk of breast and/or ovarian tumors?
Yes. Mutations in several other genes, including TP53, PTEN, STK11/LKB1, CDH1, CHEK2, ATM, MLH1, and MSH2, have been associated with hereditary breast and/or ovarian tumors (4, 6, 7). However, the majority of hereditary breast cancers can be accounted for by inherited mutations in BRCA1 and BRCA2 (8). Overall, it has been estimated that inherited BRCA1 and BRCA2 mutations account for 5 to 10 percent of breast cancers and 10 to 15 percent of ovarian cancers among white women in the United States (6).
Are specific mutations in BRCA1 and BRCA2 more common in certain populations?
Yes. For example, three specific mutations, two in the BRCA1 gene and one in the BRCA2 gene, are the most common mutations found in these genes in the Ashkenazi Jewish population. In one study, 2.3 percent of participants (120 out of 5,318) carried one of these three mutations (9). This frequency is about five times higher than that found in the general population (10). It is not known whether the increased frequency of these mutations is responsible for the increased risk of breast cancer in Jewish populations compared with non-Jewish populations.
Other ethnic and geographic populations around the world, such as the Norwegian, Dutch, and Icelandic peoples, also have higher frequencies of specific BRCA1 and BRCA2 mutations.
In addition, limited data indicate that the frequencies of specific BRCA1 and BRCA2 mutations may vary among individual racial and ethnic groups in the United States, including African Americans, Hispanics, Asian Americans, and non-Hispanic whites (11-13).
This information about genetic differences between racial and ethnic groups may help health care providers in selecting the most appropriate genetic test(s) (see Question 5).
Are genetic tests available to detect BRCA1 and BRCA2 mutations, and how are they performed?
Yes. Several methods are available to test for BRCA1 and BRCA2 mutations (14). Most of these methods look for changes in BRCA1 and BRCA2 DNA. At least one method looks for changes in the proteins produced by these genes. Frequently, a combination of methods is used.
A blood sample is needed for these tests. The blood is drawn in a laboratory, doctor's office, hospital, or clinic and then sent to a laboratory that specializes in the tests. It usually takes several weeks or longer to get the test results. Individuals who decide to get tested should check with their health care provider to find out when their test results might be available.
Genetic counseling is generally recommended before and after a genetic test. This counseling should be performed by a health care professional who is experienced in cancer genetics (see Question 17). Genetic counseling usually involves a risk assessment based on the individual's personal and family medical history and discussions about the appropriateness of genetic testing, the specific test(s) that might be used and the technical accuracy of the test(s), the medical implications of a positive or a negative test result, the possibility that a test result might not be informative (an ambiguous result) (see below), the psychological risks and benefits of genetic test results, and the risk of passing a mutation to children.
How do people know if they should consider genetic testing for BRCA1 and BRCA2 mutations?
Currently, there are no standard criteria for recommending or referring someone for BRCA1 or BRCA2 mutation testing.
In a family with a history of breast and/or ovarian cancer, it may be most informative to first test a family member who has breast or ovarian cancer. If that person is found to have a harmful BRCA1 or BRCA2 mutation, then other family members can be tested to see if they also have the mutation.
Regardless, women who have a relative with a harmful BRCA1 or BRCA2 mutation and women who appear to be at increased risk of breast and/or ovarian cancer because of their family history should consider genetic counseling to learn more about their potential risks and about BRCA1 and BRCA2 genetic tests.
The likelihood of a harmful mutation in BRCA1 or BRCA2 is increased with certain familial patterns of cancer. These patterns include the following (15):
For women who are not of Ashkenazi Jewish descent:
two first-degree relatives (mother, daughter, or sister) diagnosed with breast cancer, one of whom was diagnosed at age 50 or younger;
three or more first-degree or second-degree (grandmother or aunt) relatives diagnosed with breast cancer regardless of their age at diagnosis;
a combination of first- and second-degree relatives diagnosed with breast cancer and ovarian cancer (one cancer type per person);
a first-degree relative with cancer diagnosed in both breasts (bilateral breast cancer);
a combination of two or more first- or second-degree relatives diagnosed with ovarian cancer regardless of age at diagnosis;
a first- or second-degree relative diagnosed with both breast and ovarian cancer regardless of age at diagnosis; and
breast cancer diagnosed in a male relative.
For women of Ashkenazi Jewish descent:
any first-degree relative diagnosed with breast or ovarian cancer; and
two second-degree relatives on the same side of the family diagnosed with breast or ovarian cancer.
These family history patterns apply to about 2 percent of adult women in the general population. Women who have none of these family history patterns have a low probability of having a harmful BRCA1 or BRCA2 mutation.
How much does BRCA1 and BRCA2 mutation testing cost?
The cost for BRCA1 and BRCA2 mutation testing usually ranges from several hundred to several thousand dollars. Insurance policies vary with regard to whether or not the cost of testing is covered. People who are considering BRCA1 and BRCA2 mutation testing may want to find out about their insurance company's policies regarding genetic tests.
What does a positive BRCA1 or BRCA2 test result mean?
A positive test result generally indicates that a person has inherited a known harmful mutation in BRCA1 or BRCA2 and, therefore, has an increased risk of developing certain cancers, as described above. However, a positive test result provides information only about a person's risk of developing cancer. It cannot tell whether an individual will actually develop cancer or when. Not all women who inherit a harmful BRCA1 or BRCA2 mutation will develop breast or ovarian cancer.
A positive genetic test result may have important health and social implications for family members, including future generations. Unlike most other medical tests, genetic tests can reveal information not only about the person being tested but also about that person's relatives. Both men and women who inherit harmful BRCA1 or BRCA2 mutations, whether they develop cancer themselves or not, may pass the mutations on to their sons and daughters. However, not all children of people who have a harmful mutation will inherit the mutation.
What does a negative BRCA1 or BRCA2 test result mean?
How a negative test result will be interpreted depends on whether or not someone in the tested person's family is known to carry a harmful BRCA1 or BRCA2 mutation. If someone in the family has a known mutation, testing other family members for the same mutation can provide information about their cancer risk. If a person tests negative for a known mutation in his or her family, it is unlikely that they have an inherited susceptibility to cancer associated with BRCA1 or BRCA2. Such a test result is called a "true negative." Having a true negative test result does not mean that a person will not develop cancer; it means that the person's risk of cancer is probably the same as that of people in the general population.
In cases in which a family has a history of breast and/or ovarian cancer and no known mutation in BRCA1 or BRCA2 has been previously identified, a negative test result is not informative. It is not possible to tell whether an individual has a harmful BRCA1 or BRCA2 mutation that was not detected by testing (a "false negative") or whether the result is a true negative. In addition, it is possible for people to have a mutation in a gene other than BRCA1 or BRCA2 that increases their cancer risk but is not detectable by the test(s) used.
What does an ambiguous BRCA1 or BRCA2 test result mean?
If genetic testing shows a change in BRCA1 or BRCA2 that has not been previously associated with cancer in other people, the person's test result may be interpreted as "ambiguous" (uncertain). One study found that 10 percent of women who underwent BRCA1 and BRCA2 mutation testing had this type of ambiguous result (16).
Because everyone has genetic differences that are not associated with an increased risk of disease, it is sometimes not known whether a specific DNA change affects a person's risk of developing cancer. As more research is conducted and more people are tested for BRCA1 or BRCA2 changes, scientists will learn more about these changes and cancer risk.
What are the options for a person who has a positive test result?
Several options are available for managing cancer risk in individuals who have a harmful BRCA1 or BRCA2 mutation. However, high-quality data on the effectiveness of these options are limited.
Surveillance—Surveillance means cancer screening, or a way of detecting the disease early. Screening does not, however, change the risk of developing cancer. The goal is to find cancer early, when it may be most treatable.
Surveillance methods for breast cancer may include mammography and clinical breast exams. Studies are currently under way to test the effectiveness of other breast cancer screening methods, such as magnetic resonance imaging (MRI), in women with BRCA1 or BRCA2 mutations. With careful surveillance, many breast cancers will be diagnosed early enough to be successfully treated.
For ovarian cancer, surveillance methods may include transvaginal ultrasound, blood tests for CA-125 antigen, and clinical exams. Surveillance can sometimes find ovarian cancer at an early stage, but it is uncertain whether these methods can help reduce a woman's chance of dying from this disease.
Prophylactic Surgery--This type of surgery involves removing as much of the "at-risk" tissue as possible in order to reduce the chance of developing cancer. Bilateral prophylactic mastectomy (removal of healthy breasts) and prophylactic salpingo-oophorectomy (removal of healthy fallopian tubes and ovaries) do not, however, offer a guarantee against developing cancer. Because not all at-risk tissue can be removed by these procedures, some women have developed breast cancer, ovarian cancer, or primary peritoneal carcinomatosis (a type of cancer similar to ovarian cancer) even after prophylactic surgery. In addition, some evidence suggests that the amount of protection salpingo-oophorectomy provides against the development of breast and ovarian cancer may differ between carriers of BRCA1 and BRCA2 mutations (17).
Risk Avoidance--Certain behaviors have been associated with breast and ovarian cancer risk in the general population (see Question 16). Research results on the benefits of modifying individual behaviors to reduce the risk of developing cancer among BRCA1 or BRCA2 mutation carriers are limited.
Chemoprevention--This approach involves the use of natural or synthetic substances to reduce the risk of developing cancer or to reduce the chance that cancer will come back. For example, the drug tamoxifen has been shown in numerous clinical studies to reduce the risk of developing breast cancer by about 50 percent in women who are at increased risk of this disease and to reduce the recurrence of breast cancer in women undergoing treatment for a previously diagnosed breast tumor. As a result, tamoxifen was approved by the U.S. Food and Drug Administration (FDA) as a breast cancer treatment and to reduce the risk of breast cancer development in premenopausal and postmenopausal women who are at increased risk of this disease. Few studies, however, have evaluated the effectiveness of tamoxifen in women with BRCA1 or BRCA2 mutations. Data from three studies suggest that tamoxifen may be able to help lower the risk of breast cancer in BRCA1 and BRCA2 mutation carriers (18-20). Two of these studies examined the effectiveness of tamoxifen in helping to reduce the development of cancer in the opposite breast of women undergoing treatment for an initial breast cancer (19, 20).
Another drug, raloxifene, was shown in a large clinical trial sponsored by the National Cancer Institute (NCI) to reduce the risk of developing invasive breast cancer in postmenopausal women at increased risk of this disease by about the same amount as tamoxifen. As a result, raloxifene was approved by the FDA for breast cancer risk reduction in postmenopausal women. Since tamoxifen and raloxifene inhibit the growth of breast cancer cells in similar ways, raloxifene may be able to help reduce breast cancer risk in postmenopausal BRCA1 and BRCA2 mutation carriers. However, this has not been studied directly.
What are some of the benefits of genetic testing for breast and ovarian cancer risk?
There can be benefits to genetic testing, whether a person receives a positive or a negative result. The potential benefits of a negative result include a sense of relief and the possibility that special preventive checkups, tests, or surgeries may not be needed. A positive test result can bring relief from uncertainty and allow people to make informed decisions about their future, including taking steps to reduce their cancer risk. In addition, many people who have a positive test result may be able to participate in medical research that could, in the long run, help reduce deaths from breast cancer.
What are some of the risks of genetic testing for breast and ovarian cancer risk?
The direct medical risks, or harms, of genetic testing are very small, but test results may have an effect on a person's emotions, social relationships, finances, and medical choices.
People who receive a positive test result may feel anxious, depressed, or angry. They may choose to undergo preventive measures, such as prophylactic surgery, that have serious long-term implications and whose effectiveness is uncertain.
People who receive a negative test result may experience "survivor guilt," caused by the knowledge that they likely do not have an increased risk of developing a disease that affects one or more loved ones.
Because genetic testing can reveal information about more than one family member, the emotions caused by test results can create tension within families. Test results can also affect personal choices, such as marriage and childbearing. Issues surrounding the privacy and confidentiality of genetic test results are additional potential risks (see below).
What can happen when genetic test results are placed in medical records?
Clinical test results are normally included in a person's medical records. Consequently, individuals considering genetic testing must understand that their results might not be kept private.
Because a person's genetic information is considered health information, it is covered by the Privacy Rule of the Health Information Portability and Accountability Act (HIPAA) of 1996 (21). The Privacy Rule requires that health care providers and others protect the privacy of health information, sets boundaries on the use and release of health records, and empowers individuals to control certain uses and disclosures of their health-related information. Many states also have laws to protect the privacy and limit the release of genetic and other health information.
In 2008, the Genetic Information Nondiscrimination Act (GINA) became Federal law (see Question 15). GINA prohibits discrimination based on genetic information in relation to health insurance and employment, but the law does not cover life insurance, disability insurance, and long-term care insurance. When applying for these types of insurance, people may be asked to sign forms that give an insurance company permission to access their medical records. The insurance company may take genetic test results into account when making decisions about coverage.
Some physicians keep genetic test results out of medical records. However, even if such results are not included in a person's medical records, information about a person's genetic profile can sometimes be gathered from that person's family medical history.
What is genetic discrimination, and are there laws to protect people from this type of discrimination?
Genetic discrimination occurs when people are treated differently by insurance companies or employers because they have a gene mutation that increases their risk of a disease, such as cancer. However, in 2008, GINA was enacted to protect U.S. citizens against discrimination based on their genetic information in relation to health insurance and employment (22, 23). The parts of the law relating to health insurers will take effect between May 2009 and May 2010, and those relating to employers will take effect by November 2009. The law does not cover life insurance, disability insurance, and long-term care insurance. In addition, the law does not cover members of the military.
Some of the protections under GINA with regard to health insurance include the following:
Premiums or contributions to a group health plan cannot be increased based on the genetic information of an individual(s) enrolled in the plan.
Insurers cannot require an individual or family member to undergo a genetic test before enrollment in a group health plan.
Insurers cannot request, require, or purchase genetic information about an individual before the person's enrollment in a group health plan or in connection with that person's enrollment in the plan.
Health insurers cannot use genetic information as the only basis upon which to claim a pre-existing condition is present and, therefore, to deny coverage.
Some of the protections under GINA with regard to employment include the following:
Employers cannot refuse to hire and cannot fire individuals based on their genetic information.
Employers cannot discriminate against employees with regard to salary, terms and conditions of employment, privileges, and opportunities for the future because of their genetic information.
Employers cannot request, require, or purchase genetic information about an employee except under specific circumstances.
Employers cannot disclose an employee's genetic information except under specific circumstances.
Before GINA was passed, many states enacted laws against genetic discrimination. The amount of protection provided by these laws varies widely from state to state. GINA sets a minimum standard of protection that must be met by all states. It does not weaken the protections provided by any state law.
In general, what factors increase or decrease the chance of developing breast cancer and/or ovarian cancer?
The following factors have been associated with increased or decreased risk of developing breast and/or ovarian cancer in the general population. It is not yet known exactly how these factors influence risk in people with BRCA1 or BRCA2 mutations. In addition, a significant portion of hereditary breast cancers are not associated with BRCA1 or BRCA2 mutations (8).
Age—The risks of breast and ovarian cancer increase with age. Most breast and ovarian cancers occur in women over the age of 50. Women with harmful BRCA1 or BRCA2 mutations often develop breast or ovarian cancer before age 50.
Family History—Women who have a first-degree relative (mother, sister, or daughter) or other close relative with breast and/or ovarian cancer may be at increased risk of developing these cancers. In addition, women with relatives who have had colon cancer may be at increased risk of developing ovarian cancer.
Medical History—Women who have already had breast cancer are at increased risk of developing breast cancer again, or of developing ovarian cancer.
Hormonal Influences—Estrogen is a hormone that is naturally produced by the body and stimulates the normal growth of breast tissue. It is thought that excess estrogen may contribute to breast cancer risk because of its natural role in stimulating breast cell growth. Women who had their first menstrual period before the age of 12 or experienced menopause after age 55 have a slightly increased risk of breast cancer, as do women who had their first child after age 30. Each of these factors increases the amount of time a woman's body is exposed to estrogen. Removal of a woman's ovaries, which are the main source of estrogen production, reduces the risk of breast cancer. Breast-feeding also reduces breast cancer risk and is thought to exert its effects through hormonal mechanisms (24).
Birth Control Pills (Oral Contraceptives)—Most studies have shown a slight increase or no change in risk of breast cancer among women taking birth control pills (24). In contrast, numerous studies have shown that taking birth control pills decreases a woman's risk of developing ovarian cancer (25). This protective benefit appears to increase with the duration of oral contraceptive use and persists up to 25 years after discontinuing use. It also appears that the use of birth control pills lowers the risk of ovarian cancer in women who carry harmful BRCA1 or BRCA2 mutations (26).
Hormone Replacement Therapy—Doctors may prescribe hormone replacement therapy (HRT) to reduce the discomfort of certain symptoms of menopause, such as hot flashes. However, the results of the Women's Health Initiative (WHI), a large clinical study conducted by the National Heart, Lung, and Blood Institute, part of the National Institutes of Health (NIH), showed that HRT with the hormones estrogen and progestin is associated with harmful side effects, including an increased risk of breast cancer and increased risks of heart attack, blood clots, and stroke. The WHI also showed that HRT with estrogen alone was associated with increased risks of blood clots and stroke, but the effect on breast cancer risk was uncertain (27). In addition, the WHI showed an increase in ovarian cancer risk among women who received estrogen and progestin HRT, but this finding was not statistically significant (28). Because of these potential harmful side effects, the FDA has recommended that HRT be used only at the lowest doses for the shortest period of time needed to achieve treatment goals.
No data have been reported to date regarding the effects of HRT on breast cancer risk among women carrying harmful BRCA1 or BRCA2 mutations, and only limited data are available regarding HRT use and ovarian cancer risk among such women. In one study, HRT use did not appear to affect ovarian cancer risk among women with BRCA1 or BRCA2 mutations (29).
When considering HRT use, both the potential harms and benefits of this type of treatment should be discussed carefully by a woman and her health care provider.
Obesity—Substantial evidence indicates that obesity is associated with an increased risk of breast cancer, especially among postmenopausal women who have not used HRT (24). Evidence also suggests that obesity is associated with increased mortality (death) from ovarian cancer (30).
Physical Activity—Numerous studies have examined the relationship between physical activity and breast cancer risk, and most of these studies have shown that physical activity, especially strenuous physical activity, is associated with reduced risk. This decrease in risk appears to be more pronounced in premenopausal women and women with lower-than-normal body weight (24).
Alcohol—There is substantial evidence that alcohol consumption is associated with increased breast cancer risk. However, it is uncertain whether reducing alcohol consumption would decrease breast cancer risk (24).
Dietary Fat—Although early studies suggested a possible association between a high-fat diet and increased breast cancer risk, more recent studies have been inconclusive. In the WHI, a low-fat diet did not help reduce breast cancer risk (31).
Where can people get more information about genetic testing for cancer risk?
A person who is considering genetic testing should speak with a professional trained in genetics before deciding whether to be tested. These professionals may include doctors, genetic counselors, and other health care workers trained in genetics (such as nurses, psychologists, or social workers). For help finding a health care professional trained in genetics, please visit NCI's Cancer Genetics Services Directory at http://www.cancer.gov/search/geneticsservices on the Internet. Alternatively, please contact NCI's Cancer Information Service (CIS) (see below for contact information). The CIS can provide more information about genetic testing and help in finding a health care professional trained in genetics.
What research is currently being done to help individuals with harmful BRCA1 or BRCA2 mutations?
Research studies are being conducted to find newer and better ways of detecting, treating, and preventing cancer in BRCA1 and BRCA2 mutation carriers. Additional studies are focused on improving genetic counseling methods and outcomes. Our knowledge in these areas is evolving rapidly.
Information about active clinical trials (research studies with people) for individuals with BRCA1 or BRCA2 mutations is available on NCI's Web site. The following links will initiate searches of NCI's clinical trials database and retrieve lists of trials open to individuals with BRCA1 or BRCA2 mutations.
BRCA1 mutation carriers
BRCA2 mutation carriers
In addition, NCI's CIS can provide information about clinical trials and help with clinical trial searches (see below for contact information).
Selected References
Kadouri L, Hubert A, Rotenberg Y, et al. Cancer risks in carriers of the BRCA1/2 Ashkenazi founder mutations. Journal of Medical Genetics 2007; 44(7):467-471.
Thompson D, Easton DF, the Breast Cancer Linkage Consortium. Cancer incidence in BRCA1 mutation carriers. Journal of the National Cancer Institute 2002; 94(18):1358-1365.
The Breast Cancer Linkage Consortium. Cancer risks in BRCA2 mutation carriers. Journal of the National Cancer Institute 1999; 91(15):1310-1316.
PDQ Cancer Information Summary. National Cancer Institute; Bethesda, MD. Genetics of Breast and Ovarian Cancer (PDQ ) - Health Professional. Date last modified 04/24/2009. Available at: http://www.cancer.gov/cancertopics/pdq/genetics/breast-and-ovarian/healthprofessional. Accessed 05/15/2009.
National Cancer Institute. SEER Cancer Statistics Review, 1975-2005. Retrieved April 20, 2009, from: http://seer.cancer.gov/csr/1975_2005/index.html.
Campeau PM, Foulkes WD, Tischkowitz MD. Hereditary breast cancer: New genetic developments, new therapeutic avenues. Human Genetics 2008; 124(1):31-42.
Walsh T, Casadei S, Coats KH, et al. Spectrum of mutations in BRCA1, BRCA2, CHEK2, and TP53 in families at high risk of breast cancer. Journal of the American Medical Association 2006; 295(12):1379-1388.
Lynch HT, Silva E, Snyder C, Lynch JF. Hereditary breast cancer: Part I. Diagnosing hereditary breast cancer syndromes. The Breast Journal 2008; 14(1):3-13.
Struewing JP, Hartge P, Wacholder S, et al. The risk of cancer associated with specific mutations of BRCA1 and BRCA2 among Ashkenazi Jews. New England Journal of Medicine 1997; 336(20):1401-1408.
Warner E, Foulkes W, Goodwin P, et al. Prevalence and penetrance of BRCA1 and BRCA2 gene mutations in unselected Ashkenazi Jewish women with breast cancer. Journal of the National Cancer Institute 1999; 91(14):1241-1247.
John EM, Miron A, Gong G, et al. Prevalence of pathogenic BRCA1 mutation carriers in 5 U.S. racial/ethnic groups. Journal of the American Medical Association 2007; 298(24):2869-2876.
Vogel KJ, Atchley DP, Erlichman J, et al. BRCA1 and BRCA2 genetic testing in Hispanic patients: Mutation prevalence and evaluation of the BRCAPRO risk assessment model. Journal of Clinical Oncology 2007; 25(29):4635-4641.
Malone KE, Daling JR, Doody DR, et al. Prevalence and predictors of BRCA1 and BRCA2 mutations in a population-based study of breast cancer in white and black American women ages 35 to 64 years. Cancer Research 2006; 66(16):8297-8308.
Palma M, Ristori E, Ricevuto E, Giannini G, Gulino A. BRCA1 and BRCA2: The genetic testing and the current management options for mutation carriers. Critical Reviews in Oncology/Hematology 2006; 57(1):1-23.
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Peshkin BN, DeMarco TA, Brogan BM, Lerman C, Isaacs C. BRCA1/2 testing: Complex themes in result interpretation. Journal of Clinical Oncology 2001; 19(9):2555-2565.
Kauff ND, Domchek SM, Friebel TM, et al. Risk-reducing salpingo-oophorectomy for the prevention of BRCA1- and BRCA2-associated breast and gynecologic cancer: A multicenter, prospective study. Journal of Clinical Oncology 2008; 26(8):1331-1337.
King MC, Wieand S, Hale K, et al. Tamoxifen and breast cancer incidence among women with inherited mutations in BRCA1 and BRCA2: National Surgical Adjuvant Breast and Bowel Project (NSABP-P1) Breast Cancer Prevention Trial. Journal of the American Medical Association 2001; 286(18):2251-2256.
Narod SA, Brunet JS, Ghadirian P, et al. Tamoxifen and risk of contralateral breast cancer in BRCA1 and BRCA2 mutation carriers: A case-control study. Lancet 2000; 356(9245):1876-1881.
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heatherf@facingourrisk.org
Dr Ira L Shapira is an author and section editor of Sleep and Health Journal, President of I HATE CPAP LLC, President Dato-TECH, and has a Dental Practice with his partner Dr Mark Amidei. He has recently formed Chicagoland Dental Sleep Medicine Associates. He is a Regent of ICCMO and its representative to the TMD Alliance, He was a founding and certified member of the Sleep Disorder Dental Society which became the American Academy of Dental Sleep Medicine, A founding member of DOSA the Dental Organization for Sleep Apnea. He is a Diplomate of the American Board of Dental Sleep Medicine, A Diplomat of the American Academy of Pain Management, a graduate of LVI. He is a former assistant professor at Rush Medical School's Sleep Service where he worked with Dr Rosalind Cartwright who is a founder of Sleep Medicine and Dental Sleep Medicine. Dr Shapira is a consultant to numerous sleep centers and teaches courses in Dental Sleep Medicine in his office to doctors from around the U.S. He is the Founder of I HATE CPAP LLC and http://www.ihatecpap.com Dr Shapira also holds several patents on methods and devices for the prophylactic minimally invasive early removal of wisdom teeth and collection of bone marrow and stem cells. Dr Shapira is a licensed general dentist in Illinois and Wisconsin.
Bowling For Breast Cancer Awareness Fundraiser: Force: Facing Our Risk Of Cancer Empowered is Holding its 1st Annual Bowling 4 Breast Cancer Awareness Event October 16th 7pm @ The Alley in Highwood!
FORCE represents patients and their families who have an increased risk of Breast and Ovarian Cancer due to genetic predisposition. Many patients have BRAC 1 or BRAC 2 mutations drastically increasing their risk of these cancers.
2010-10-12
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Long Island Snow Removal Company, K & D Landscaping is at 30 Years and Running
2010-10-12
30 years is quite a long time. Three decades, numerous new presidents, and even more changes in fashion. There are hundreds of new television channels and dozens of new professional sports teams. But through it all, K&D landscaping have changed very little. Outlasting thousands of other companies, they continue to do what made them so successful in the first place. A rather simple formula for success. Quality work, friendly customer service, reliability and ingenuity.
K & D landscapes operates and services all of Long Island. They are located in Huntington Station in ...
NFL Football Fever Grips Intertops Casino, Poker & Sportsbook -- Festivities Include a Football Slot Machine, Monday Night Football Poker Tournaments, NFL LINES, and a Free Super Bowl Contest
2010-10-12
Football Fever is spreading quickly throughout the Intertops casino, poker room and, of course, online sportsbook. In the poker room there is Monday Night Football poker tournaments tonight and every Monday night in October. In the casino the reels have been spinning non-stop on the football-themed slots game, Field of Green, while the sportsbook - the first to ever take an online bet and still the best place to wager on American major league sports - has all the NFL games, all the lines, all the best odds, all the best chances to win.
"Our bookmakers favor Green Bay ...
Florida Center for Cosmetic Laser Gynecology Supports Safewalk for Women
2010-10-12
Florida cosmetic gynecologist Dr. Mark Scheinberg, a member of the Ultimate Makeovers Team, will participate in the Safewalk Run 5K on October 30th. The 12th annual Safewalk benefits Women in Distress, a non-profit group that provides safe shelter and critical services to families affected by domestic violence.
The event is timed and awards are given to top finishers as well as incentives for top fundraisers. All walkers and runners are asked to raise $200; the walk's goal is to raise $100,000. The event will be attended by the Miami Dolphin Cheerleaders and organizers ...
South Florida Cosmetic Dentist Notes How Oral Health Affects the Whole Body
2010-10-12
People tend to think of beautiful straight teeth as a purely cosmetic concern - a luxury rather than a necessity. However, teeth that are crooked, stained, or have other problems can cause physiological problems in the rest of the body or can be an indicator of other health problems.
"Crooked and crowded teeth are hard to clean properly, potentially leading to tooth decay, gum disease, and tooth loss," notes Dr. Charles Nottingham, a Miami dentist and Fort Lauderdale dentist."A bad bite can also cause abnormal wear of tooth surfaces, poor speech, and excessive stress ...
Protege for iPad from Frost River
2010-10-12
For the urbanite who wishes to enjoy the great outdoors without leaving modern conveniences behind, the Protege family from Frost River offers padded protection for laptops, iPads, Kindles, mini PCs and more. Featuring a mix of premium leather and waxed canvas, Protege products provide an ideal solution for carrying electronic devices in everyday life and outdoor recreation while biking, canoeing, hiking and more. Protege products can be used as stand-alone carrying cases or protective sleeves inside of a briefcase, backpack or purse. Plus, they feature convenient slip ...
Pardee Homes Earns 20 Finalist Honors in 2010 SoCal Awards For New Home Design and Marketing
2010-10-12
Pardee Homes has earned 20 finalist honors in the 2010 SoCal Awards program, including the coveted Community of the Year and Consumer Choice designations for four of the company's new home communities. The annual SoCal Awards competition is sponsored by Sales and Marketing Councils throughout Southern California.
"Our finalists represent the choices new home buyers have in two of our principal markets, new homes that serve young singles and starter families through move-up households and empty nesters," said Bob Clauser, senior vice president of marketing for Pardee ...
triCerat Unveils New Profiles Technology at VMworld Europe 2010
2010-10-12
triCerat Inc., premier desktop management solution provider, proudly showcases new profile management technology at VMworld in Copenhagen, Denmark from October 12-14.
triCerat works with VMware, leading supplier of virtualization management software, by simplifying the process of supporting a VDI-based remote desktop environment. triCerat's solutions allow administrators to achieve seamless printing, fast logins, profile consistency, CPU management, and securely locked down desktops.
VMworld Copenhagen is a world-class event that provides IT professionals with innovative ...
Exlar Linear Actuators Featured on USS Gerald R. Ford Advanced Weapons Elevators
2010-10-12
Exlar Corporation announces its award to provide linear actuators for Federal Equipment Company's Advanced Weapons Elevators (AWE) on the USS Gerald R. Ford Aircraft Carrier.
In Cincinnati, Ohio, Federal Equipment Company is manufacturing eleven state-of-the-art Advanced Weapons Elevators for the newest class of US Aircraft Carriers. With capacities up to 24,000 pounds and speeds up to 150 feet per minute, the elevators vastly improve payload capabilities over previously designed weapons handling systems. The next generation Aircraft Carrier Gerald R. Ford, also known ...
U.S. DOT Regulation of Fluorescent Lamp Transportation: Part 2
2010-10-12
Federal requirements for transporting "hazardous materials" are contained in Title 49 of the U.S. DOT Code of Federal Regulations. Specific packaging standards for shipment of articles containing mercury, including "mercury vapor tubes," are contained in 49 C.F.R. Section 173.164. According to 49 C.F.R. Section 173.164(b), the regulations do not apply to packages containing less than 1 gram of mercury: "Manufactured articles or apparatuses, each containing not more than 100 mg (0.0035 ounce) of mercury and packaged so that the quantity of mercury per package does not exceed ...
High Performance Tritex II Series Electric Servo Valve Actuator Delivers Quick and Stable Response to Command Signal Changes
2010-10-12
The Tritex II Series actuator provides an ideal solution for valve actuation applications by reducing under-performing control valves, which cost a typical process plant tens of thousands of dollars each year. To overcome this lack of performance, Exlar's Tritex II eliminates the use of pneumatic actuators and delivers small hysterisis and dead band, quick response to small signal changes and stable dynamic response. Available in both linear and rotary versions, the Tritex II can be mounted on any valve from any manufacturer.
For precise valve control, the flow characteristic ...
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[Press-News.org] Bowling For Breast Cancer Awareness Fundraiser: Force: Facing Our Risk Of Cancer Empowered is Holding its 1st Annual Bowling 4 Breast Cancer Awareness Event October 16th 7pm @ The Alley in Highwood!FORCE represents patients and their families who have an increased risk of Breast and Ovarian Cancer due to genetic predisposition. Many patients have BRAC 1 or BRAC 2 mutations drastically increasing their risk of these cancers.