  Breast cancerHighlightsDrug Approvals
Screening
Post-Treatment Guidelines The American Society of Clinical Oncology (ASCO)’s 2006 post-treatment guidelines recommend regular physical exams, breast self-exam, mammograms, and genetic counseling. Know how to recognize the signs of breast cancer recurrence. ASCO does not recommend blood and imaging tests for routine recurrence screening. Hormone Replacement Therapy (HRT) and Breast Cancer Risk Fewer women are using HRT, which may explain why new cases of breast cancer among postmenopausal women have declined, suggests a recent New England Journal of Medicine study. Aromatase Inhibitors Drug treatment with aromatase inhibitors is improving survival in women with hormone-sensitive advanced breast cancer, suggest recent studies. Switching from tamoxifen to an aromatase inhibitor may help improve the odds for survival. IntroductionBreast cancers are potentially life-threatening malignancies that develop in one or both breasts. The structure of the female breast is important in understanding this cancer:
 The female breast is either of two mammary glands (organs of milk secretion) on the chest. Noninvasive breast cancers include:
At the time of diagnosis of these early cancers (DCIS and LCIS), there is no evidence of invasion. Invasive cancer occurs when cancer cells spread beyond the basement membrane, which covers the underlying connective tissue in the breast. This tissue is rich in blood vessels and lymphatic channels that are capable of carrying cancer cells beyond the breast. Invasive breast cancers include the following:
 Click the icon to see an image of the breast. There are other less common breast cancers that are not discussed in this report. Risk FactorsAbout 12 - 13% of women develop breast cancer in their lifetime. Experts estimate that about 178,480 women will be newly diagnosed with invasive breast cancer in the United States in 2007. Another 2,030 men will be diagnosed with breast cancer during the year. Although breast cancer in men is rare, the incidence has been increasing, and men are diagnosed at a later stage than women. An estimated 40,460 women and 450 men will die from breast cancer in 2007. The earlier breast cancer is diagnosed, the earlier the opportunity for treatment. According to the American Cancer Society, over 2 million women who have been treated for breast cancer are alive today. Age is a major identifiable risk factor. More than 80% of breast cancer cases occur in women over age 50, and especially in women over age 65. The odds by age are as follows:
Breast cancer is more prevalent among Jewish women of Eastern European (Ashkenazi) descent. Meanwhile, African-American women tend to get breast cancer at an earlier age than Caucasians. Although African-American women have lower overall rates of breast cancer, they represent the highest proportion of women who are diagnosed with the disease before age 45. Comparative studies of breast cancer rates among sub-Saharan Africans suggest a genetic component, as African women are diagnosed most frequently between ages 35 - 45. The mortality rate in African-Americans is twice that of Caucasians, although it is declining. Social and economic factors make it less likely that African-American women will be screened, so they are more likely to be diagnosed at a later stage. They are also less likely to have access to effective treatments. However, there also appears to be a biological basis for African-American women’s poorer prognosis. According to research presented at the 2007 Breast Cancer Symposium, African-American women are more likely to have estrogen receptor-negative tumors, a type of breast cancer that is more difficult to treat. An estimated 10% of all women with breast cancer have a very strong family history of the disease. Inherited forms of breast cancer often appear in young women under the age of 50. In such families, some members may also be at higher risk for ovarian cancer. These mutations can be inherited from either a mother or father.  Prior to menopause, a mass on the ovary that is smaller than 2 centimeters is probably a follicle cyst that will go away on its own. However, if the growth is larger and doesn't go away over the course of a few menstrual cycles, then it may need to be removed. BRCA Genes. Inherited mutations in genes known as BRCA1 or BRCA2 are responsible for 30 - 50% of hereditary breast cancers, ovarian cancers, or both in families with a history of these cancers. According to some studies, the risk each gene carries is:
These mutations are present in only about 0.5% of the overall population. However, certain ethnic groups -- such as Jewish women of Eastern European (Ashkenazi) descent -- have a higher prevalence (2.5%) of BRCA gene mutations. BRCA gene mutations are also seen in some African-American and Hispanic women. Screening Guidelines for BRCA Genes. In 2005, the U.S. Preventive Services Task Force (USPSTF) released updated guidelines for BRCA testing. While women at high risk should be tested, the USPSTF does not recommend routine genetic counseling or testing for BRCA genes in low-risk women (no family history of BRCA 1 or 2 genetic mutations). ESR Genes. Genetic variations in estrogen receptor genes (ESRs) may increase the risk for some women but offer protection to others. Mutations in the ESR1 and ESR2 genes may be associated with breast cancer susceptibility for Ashkenazi women over age 50 years. Other Genetic Factors. Mutations in the tumor suppressor gene p53 are more common in the breast cancer tumors of African-American women than in Caucasian women. Researchers have also identified other defective genes that contribute to breast cancer, such as NOEY2 (which is inherited from the father), CHEK2, and ATM, a mutant gene for the rare disorder ataxia-telangiectasia. (The disease itself is rare, but 1% of the population carries a single copy -- enough to increase the risk for breast cancer.) Cowden's syndrome is an inherited disorder caused by a defective PTEN gene that is associated with a higher risk of breast cancer. Not all genetic mutations are inherited. In 2007, scientists announced they had located a genetic mutation found in as many as 30 - 40% of breast cancers. The IKBKE mutation appears to occur during the course of a women’s lifetime. It causes overproduction of a kinase protein (IKK-epsilon) that fuels cell growth and tumor development. By identifying this genetic mutation, scientists hope they can develop drugs that will target and block IKK-epsilon production. Because growth of breast tissue is highly sensitive to estrogens, the more estrogen a woman is exposed to over her lifetime, the higher her risk for breast cancer. Duration of Estrogen Exposure. Early age at menarche (first menstrual period) or later age at menopause may slightly increase a women’s risk for breast cancer. Pregnancy. Women who have never had children or who had their first child after age 30 may have a slightly increased breast cancer risk. Having children at an early age, and having multiple pregnancies, reduces breast cancer risk. Although a few studies have suggested a slightly increased risk for breast cancer in women who have had abortions, the weight of evidence does not support an association between abortion and breast cancer. A large-scale 2007 study found that neither induced abortions nor spontaneous abortions (miscarriages) increases breast cancer risk. However, interrupting a pregnancy does reduce the protective features of a full-term pregnancy. Studies have been mixed on whether breast-feeding decreases breast cancer risk. Breast-feeding reduces a woman’s total number of menstrual cycles, and thereby estrogen exposure, which may account for its possible protective effects. Some studies suggest that the longer a woman breast-feeds, the lower her risk. Oral Contraception. Studies have been conflicting about whether estrogen in oral contraception increases the chances for breast cancer. Some studies have found no evidence that oral contraceptive use increases the risk for breast cancer, even in women who have taken birth control pills for 15 years or more or had taken them at young ages. In contrast, other studies have reported a slightly higher risk in women who are current or recent users and in women who take them for more than 4 years before a first full-term pregnancy. Hormone Replacement Therapy. Many studies have reported a higher risk for breast cancer in postmenopausal women who take hormone replacement therapy (HRT) that contains both estrogen and progestin. A combination of estrogen and testosterone also increases breast cancer risk. A 2005 study suggested that HRT with no or low progestin is safer than standard estrogen-progestin combination therapy. Several 2006 studies of women who had a hysterectomy indicated that estrogen alone does not increase overall breast cancer risk when the drug is used for 7 years or less. However, women who take estrogen for 10 - 15 years or more do have an increased risk, especially women who are already at higher risk for breast cancer. In addition, HRT increases breast cancer density, making mammograms more difficult to read. This can cause cancer to be diagnosed at a later stage. Women who take estrogen HRT should be aware that they need frequent mammogram screenings. As further evidence of the association between HRT and breast cancer, a 2007 New England Journal of Medicine study noted that breast cancer rates have fallen as HRT use has declined. The decline in rates occurred among women over the age of 50 and was particularly associated with cancers that were estrogen receptor-positive. This type of cancer requires estrogen for growth. Experts think that postmenopausal women’s discontinuation of estrogen-containing HRT may explain the decrease in rates of new cases of estrogen receptor-positive cancer. A 2007 position statement from the North American Menopause Society recommends that women who are at risk for breast cancer should avoid hormone therapy and try other options to manage menopausal symptoms such as hot flashes. At this time, most experts recommend that women use HRT only for short-term relief of menopausal symptoms. [See In-Depth Report #40: Menopause.] Infertility and Infertility Treatments. There has been concern that infertility treatments using the drug clomiphene may increase the risk for breast cancer. A reassuring 2006 study indicated that ovulation induction with clomiphene does not increase breast cancer risk, and may actually decrease it. (Clomphine is related to tamoxifen, a drug that is used for breast cancer prevention in high-risk women.) The study also suggested that women who are infertile because of ovulatory dysfunction have a 25% lower risk for breast cancer than fertile women. Abnormalities or Breast Conditions Suggesting a Higher Risk. Certain factors and breast conditions may increase the risk for breast cancer:
Some common benign breast abnormalities that pose few or no risks include the following:
 Click the icon to see an image of cysts in the breast.
 Click the icon to see an image of a breast abscess.
 Click the icon to see an image of nipple discharge.
The following physical characteristics have been associated with increased risk:
Exposure to Estrogen-like Industrial Chemicals. Chemicals with estrogen-like effects, called xenoestrogens, have been under suspicion for years. There has been particular concern with pesticides containing organochlorines (DDT and its metabolites, such as dieldrin) and pyrethroids (permethrin), but at this time evidence of any causal association is very weak. Exposure to Diethylstilbestrol. Women who took diethylstilbestrol (DES) to prevent miscarriage have a slightly increased risk for breast cancer. Recent studies also suggest a slightly increased risk for their daughters (commonly called "DES daughters"), who were exposed to the drug when their mothers took it during pregnancy. Radiation Exposure. Heavy exposure to radiation is a significant risk factor for breast cancer. Girls who received high-dose radiation therapy face an increased risk for breast cancer in adulthood. Low-dose radiation exposure before age 20 may increase the risk for women with BRCA genetic mutations. Researchers theorize that viruses may be involved in some types of breast cancers. A study of breast cancer samples taken from Tunisian women in North Africa found similarities with a virus known to cause breast cancer in mice. The samples were compared with those taken from women living in other global regions. The researchers suggested that a human breast cancer virus may be more prevalent in specific parts of the world. Prevention and Lifestyle FactorsEvidence indicates that regular exercise, particularly vigorous exercise, may offer some modest protection against breast cancer. Exercise can help reduce body fat, which in turn lowers levels of cancer-promoting hormones such as estrogen. In fact, a 2006 study suggested that physical activity may help women reduce the risk for developing estrogen receptor-positive tumors. Exercise can also help women who have been diagnosed with breast cancer. Studies indicate that both aerobic and weight training exercises benefit the body and the mind, and improve quality of life for breast cancer survivors. Even moderate exercise can help improve survival. A 2005 study in the Journal of the American Medical Association reported survival benefits for women diagnosed with breast cancer who walked 3 – 5 hours per week at an average pace. The American Cancer Society recommends engaging in 45 - 60 minutes of physical activity at least 5 days a week. A recent study indicated that diet and exercise can reduce the risk of breast cancer recurrence.  Physical activity contributes to health by reducing the heart rate, decreasing the risk for cardiovascular disease, and reducing the amount of bone loss that is associated with age and osteoporosis. Physical activity also helps the body use calories more efficiently, thereby helping in weight loss and maintenance. It can increase basal metabolic rate, reduces appetite, and helps in the reduction of body fat. Despite much research on the association between diet and breast cancer, there is still little consensus. The best advice is to eat a well-balanced diet and avoid focusing on one "cancer-fighting" food. The American Cancer Society’s dietary guidelines for cancer prevention recommend that people:
For breast cancer survivors, the American Cancer Society recommends diets that include lots of fruits and vegetables, low amounts of saturated fat (from meat and high-fat dairy products), moderation in soy foods, and moderate or no alcohol consumption. Here are results from recent studies evaluating diet and breast cancer, for preventing both the development of cancer and its recurrence: Fats. Research is still mixed on the role that fats, and which specific types of fats, play in breast cancer risk and prevention. Several studies have indicated that red meat, which is high in saturated fat, may increase breast cancer risk when eaten in large quantities on a daily basis. (Red meat is also high in iron, which in itself may increase breast cancer risk.) According to results from the 2006 Women’s Health Initiative study of dietary fat and breast cancer, experts cannot yet definitely say that a low-fat diet will help prevent breast cancer. However, the study suggested that women who normally eat a very high-fat diet may benefit by reducing their fat intake. In the study, the low-fat diet reduced blood estrogen levels by 15%. The low-fat diet also appeared to reduce the risk for developing progesterone receptor-negative tumors. Fruits and Vegetables. Fruits and vegetables are important sources of antioxidants, which may help protect against the tissue damage linked to increased cancer risk. Antioxidants include vitamin C, vitamin E, and carotenoids such as beta-carotene and lycopene. Richly colored fruits and vegetables -- not supplements -- are the best sources for these nutrients. These fiber-rich foods are an essential part of a healthy diet. However, it is not clear whether fruits and vegetables can specifically prevent breast cancer development or recurrence. According to a 2007 study of women with early-stage breast cancer, a low-fat diet very high in vegetables, fruit, and fiber does not work any better in preventing breast cancer recurrence than the standard 5 servings a day of fruits and vegetables. (However, a combination of diet and exercise may help.) Calcium and Vitamin D. Eating lots of foods rich in calcium and vitamin D (such as yogurt and milk) may modestly reduce the risk of breast cancer for premenopausal -- but not postmenopausal -- women, according to a 2007 study. Low-fat or non-fat dairy products are a healthier choice than high-fat ones.  Click the icon to see an image of vitamin D sources. Soy. Soy is an excellent low-fat protein alternative to meat. Soy contains phytoestrogens, which are estrogen-like plant chemicals. In particular, soy contains a type of phytoestrogen called isoflavones. Because many soy foods (such as tofu) are eaten in Asian countries where women tend to have a lower incidence of breast cancer, research has focused on whether soy may have a protective effect. To date, the evidence does not indicate that soy foods or supplements can reduce breast cancer risk. In addition, some studies suggest that high intakes of soy may actually increase the risk of estrogen-responsive cancers such as breast cancer. Some animal studies have suggested that the isoflavone compound genistein may reduce the protective properties of tamoxifen, a drug used to prevent breast cancer in high-risk women. The American Cancer Society recommends that women with breast cancer eat only moderate amounts of soy foods and avoid taking dietary supplements that contain high amounts of isoflavones.  Click the icon to see an image of phytochemicals. Lifestyle Factors. Premenopausal women at higher risk, usually because of family history, should take as many preventive measures as possible, starting at an early age. The following lifestyle choices may be beneficial:
In spite of some rumors published in the popular press, antiperspirants or use of deodorants after shaving have not been linked with any higher risk for breast cancer. Tamoxifen and Raloxifene. Drugs known as selective estrogen-receptor modulators (SERMs) act like estrogen in some tissues but behave like estrogen blockers (anti-estrogens) in others. Two SERMs -- tamoxifen (Nolvadex) and raloxifene (Evista) -- are approved for breast cancer prevention for high-risk women. Tamoxifen and raloxifene are not recommended as prevention for women at low risk for breast cancer or its recurrence. Women at high risk for breast cancer should discuss with their doctors the risks and benefits of SERMs. Tamoxifen (Nolvadex) is the most studied of these drugs. It is currently used to treat breast cancer and was the first drug approved for prevention. Evidence strongly suggests that it halves the risk for estrogen receptor-positive cancers in high-risk women, including those with BRCA2 mutations (although possibly not BRCA1). It also helps prevent recurrence in women who have been treated for breast cancers. However, it has no protective effects against estrogen receptor-negative (hormone-insensitive) cancers. Tamoxifen can increase the risk for uterine (endometrial) cancers. It can also increase the risk for blood clots, strokes, and endometriosis. Less serious side effects include hot flashes and vaginal discharge. Raloxifene (Evista) was approved in 2007 for prevention of breast cancer in postmenopausal women with osteoporosis and postmenopausal women at high risk for invasive breast cancer. Raloxifene was previously approved for prevention and treatment of osteoporosis in postmenopausal women. One of raloxifene’s main benefits is that it has a lower risk than tamoxifen of causing uterine cancer. However, raloxifene also has some serious risks. According to the prescribing information from the Food and Drug Administration (FDA), raloxifene can increase the risk of blood clots. Women with a history of blood clots in the legs, lungs, or eyes should not take this medicine. Although studies indicate raloxifene does not increase the risk of stroke, it can increase the risk of dying from a stroke. Women with a history of stroke or current risk factors for stroke should discuss with their doctors whether raloxifene is an appropriate choice. Less serious side effects of raloxifene include hot flashes, leg cramps, swelling of the legs and feet, flu-like symptoms, joint pain, and sweating. Raloxifene can cause birth defects and is approved only for postmenopausal women. It should not be taken with the cholesterol-lowering drug cholestyramine (Questran) or with estrogens. The FDA based its approval of raloxifene on results from several major studies. The comparison trial Study of Tamoxifen and Raloxifene (STAR), published in 2006 in the Journal of the American Medical Association, indicated that raloxifene works as well as tamoxifen in reducing the risk of invasive breast cancer, and has a lower risk of causing blood clots. However, the Raloxifene Use for the Heart (RUTH) trial, published in 2006 in the New England Journal of Medicine, suggested that raloxifene carries its own risks for blood clots and fatal strokes and may not be a safe choice for women at high risk of heart disease. Investigational Drugs for Breast Cancer Prevention.
SymptomsBreast cancers in their early stages are usually painless. Often the first symptom is the discovery of a hard lump. Fifty percent of such masses are found in the upper outer quarter of the breast. The lump may make the affected breast appear elevated or asymmetric. The nipple may be retracted or scaly. Sometimes the skin of the breast is dimpled like the skin of an orange. In some cases there is a bloody or clear discharge from the nipple. Many cancers, however, produce no symptoms and cannot be felt on examination. They can be detected only with a mammogram.  Monthly breast self-exams should always include: visual inspection (with and without a mirror) to note any changes in contour or texture, and manual inspection in standing and reclining positions to note any unusual lumps or thicknesses. DiagnosisBreast Examination by a Health Professional. Early detection of breast cancer significantly reduces the risk of death. Women ages 20 - 49 should have a physical examination by a health professional every 1 - 2 years. Those over age 50 should be examined annually. A breast exam by a health professional can find 10 - 25% of breast cancers that are missed by mammograms. Between 6 - 46% of the lumps detected by examination are malignant. (The yield is lowest in younger women and highest in older women.) Self-Examinations. Woman have been encouraged to perform a self-examination each month, but well-conducted studies in 2002 reported no difference in mortality rates between women who were intensively instructed in self-examination and those who were not. This does not mean women should stop attempting self-examinations, but they should not replace the annual examination done by a health professional, which evidence suggests is beneficial. 1. Pick a time of the month that is easy to remember and perform self-examination at that time each month. The breast has normal patterns of thickness and lumpiness that change within a monthly period, and a consistently scheduled examination will help differentiate between what is normal from abnormal. 2. Stand in front of a mirror. Breasts should be basically the same size (one may be slightly larger than the other). Check for changes or redness in the nipple area. Look for changes in the appearance of the skin. With hands on the hips, push the pelvis forward and pull the shoulders back and observe the breasts for irregularities. Repeat the observation with hands behind the head. Move each arm and shoulder forward. 3. Lie down on the back with a rolled towel under one shoulder. Apply lotion or bath oil over the breast area. The finger action should be as follows: Using the 2nd, 3rd, and 4th finger pads (not tips) held together, make dime-sized circles. Press lightly first to feel the breast area, then press harder using a circular motion. Using this motion, start from the collarbone and move downward to underneath the breast. Shift the fingers slightly over, slightly overlapping the previously checked region, and work upward back to the collarbone. Repeat this up-and-down examination until the entire breast area has been examined. Be sure to cover the entire area from the collarbone to the bottom of the breast area and from the middle of the chest to the armpits. Move the towel under the other shoulder and repeat the procedure. Examine the nipple area, by gently lifting and squeezing it and checking for discharge. 4. Repeat step 3 in an upright position. (The shower is the best place for this, using plenty of soap.) Note: A lump can be any size or shape and can move around or remain fixed. Of special concern are specific or unusual lumps that appear to be different from the normal varying thicknesses in the breast.  Monthly breast self-exams should always include: visual inspection (with and without a mirror) to note any changes in contour or texture, and manual inspection in standing and reclining positions to note any unusual lumps or thicknesses.  Click the icon to see an image of a breast self-exam. Current Recommendations for Screening. Mammograms are very effective low-radiation screening methods for breast cancer. At this time, the U.S. Preventive Services Task Force recommends screening mammograms, with or without breast examination, every 1 - 2 years for all women over age 40. Guidelines from the American College of Physicians (ACP), however, debate whether women with a low risk for breast cancer should begin mammogram screening at age 40. The 2007 guidelines, instead, recommend that women in their 40s ask their doctor when they should begin having the test. In contrast, the American Cancer Society and the U.S. National Cancer Institute continue to endorse annual screening for women age 40 and older. The ACP's guidelines have created controversy within the medical community. Supporters of the guidelines believe that these new recommendations reflect some of the risks involved in screening younger women. These risks include radiation exposure and unnecessary biopsies. Mammographies in younger women produce a relatively high rate of false-positive results (when the test falsely indicates breast cancer). Scientists are working on new technologies to improve mammography's accuracy, but more work is needed. For example, a 2007 New England Journal of Medicine study reported that computer-aided detection software, which is used to help radiologists interpret mammograms, may instead make readings less accurate. Opponents of the ACP guidelines argue that mammograms help catch tumors while they are in their earliest and most treatable stages, and that the most deadly types of breast cancer tend to occur in women in their 40s. In addition, according to a review in the American Cancer Society's journal, mammography rates have declined since 2000. In fact, while many experts believe that the recent decline in new cases of breast cancer is partially due to reduced use of hormone replacement therapy, other experts are concerned that fewer cases of breast cancer are being detected because fewer mammographies are being performed. After age 50, all guidelines recommend annual screenings. The older a women gets, the greater her risk for developing breast cancer. (Women over age 65 account for most new cases of breast cancer.) Women with risk factors for breast cancer, including a close family member with the disease, should consider having annual mammograms starting 10 years earlier than the age at which the relative was diagnosed.  Click the icon to see an image of a mammogram. Magnetic Resonance Imaging and Ultrasound. Magnetic resonance imaging (MRI) and ultrasound techniques can detect very small tumors (less than half an inch). However, they are expensive and time-consuming procedures. Nevertheless, some doctors believe they are important in identifying small tumors missed on mammography in women who are receiving lumpectomy or breast-conserving surgeries. Such findings would allow the surgeons to remove the optimal amount of abnormal tissue. Ultrasound may also be particularly important for women with dense breast tissue who show signs of breast cancer. In a report published in 2007, the American Cancer Society recommended that high-risk women have an MRI of their breast with their annual mammogram, including those who have:
For women who have had cancer diagnosed in one breast, MRIs can also be very helpful for detecting hidden tumors in the other breast. A landmark 2007 study in the New England Journal of Medicine reported that MRI scans of women who were diagnosed with cancer in one breast detected over 90% of cancers in the other breast that had been previously missed by mammography or clinical breast exam. Currently, few women who are diagnosed with cancer in one breast are offered an MRI of the other breast. Some experts advocate MRIs for all women newly diagnosed with breast cancer; others oppose this view. MRI scans may be most useful for younger women with breast cancer who have dense breast tissue that may obscure tumors from mammography readings. MRIs are less likely to be helpful for older women with early tumors in one breast and clear mammography readings in the other. It is very important that women have MRIs at qualified centers that perform many of these procedures each year. MRI is a complicated procedure and requires special equipment and experienced radiologists. MRI facilities should also be able to offer biopsies when suspicious findings are detected. Scintimammography. In scintimammography, a radioactive chemical is injected into the circulatory system, which is then selectively taken up by the tumor and revealed on mammograms. This method is very accurate in detecting the presence or absence of breast cancer, and some doctors hope that it might eventually reduce the number of unnecessary invasive biopsies. It is used for women who have had abnormal mammograms or for women who have dense breast tissue. It is not used for regular screening or as an alternative to mammography. A definitive diagnosis of breast cancer can be made only by a biopsy (a microscopic examination of a tissue sample of the suspicious area).
 Click the icon to see an image of breast biopsy.
Final analysis of the breast tissue may take several days. If breast cancer has been determined, the next diagnostic step is to find out how far it has spread. To do this, the doctor performs a procedure called an axillary lymphadenectomy, which partially or completely removes the lymph nodes in the armpit beside the affected breast (called axillary lymph nodes). It may require a hospital stay of 1 - 2 days.  Click the icon to see an image of the axillary lymph nodes. Once the lymph nodes are removed, they are analyzed to determine whether subsequent treatment needs to be more or less aggressive:
Side effects of the procedure include increased risk for infection and pain, swelling in the arm from fluid build-up, and impaired sensation and restricted movement in the affected arm. Patients might ask their doctor about the availability of physical therapy or upper-body exercises after treatment. In two studies, such programs resulted in quicker recovery and no fluid build-up in the arm. A technique known as a sentinel node biopsy is a less invasive alternative to axillary lymph node dissection. This procedure can help determine if cancer has spread beyond the nodes. If the doctor finds no evidence of cancer, the patient may not need to have a complete axillary lymphadenectomy.  Click the icon to see an image of a sentinel node biopsy. Sentinel node biopsy involves:
Patients who have a sentinel node biopsy tend to have better arm function and a shorter hospital stay than those who have an axillary node biopsy. The American Society of Clinical Oncology's 2005 guidelines recommend sentinel node biopsy instead of axillary lymph node dissection for women with early stage breast cancer who do not have nodes that can be felt during a physical exam. It is still not known if the sentinel node biopsy has any survival advantages compared to standard lymph node removal procedures. Women often have to wait several days for results of sentinel node biopsies to learn whether they will require another surgery to remove additional lymph nodes. In 2007, the Food and Drug Administration approved the GeneSearch BLN Assay to help speed sentinel node biopsy testing. This molecular-based lab test can detect within 40 minutes whether cancer has spread to nearby lymph nodes. Because the test delivers rapid results while the patient is still on the operating table, it may help spare women the discomforts of a second surgical procedure and help them get treatment earlier. PrognosisIn the U.S., about 40,460 women will die from breast cancer this year, making it the second most lethal cancer in women. (Lung cancer is the leading cancer killer in women.) The good news is that early detection and new treatments have improved survival rates. The 5-year survival rate for women diagnosed with cancer is 80%. About 88% of women diagnosed with breast cancer will survive at least 10 years. Unfortunately, women in lower social and economic groups still have significantly lower survival rates than women in higher groups. Several factors are used to determine successful treatment and the possibility for a cure. They include:
The good news is that women are living longer with breast cancer, and at this time more than 2 million American women are survivors. Due to better treatment options, from 1990 - 2003, breast cancer mortality rates declined by 24%. However, survivors must live with the uncertainties of possible recurrent cancer and some risk for complications from the treatment itself. Recurrences of cancer usually develop within 5 years of treatment. However, 25% of recurrences and half of new cancers in the opposite breast occur after 5 years. One study suggested that the risk factors for a first breast cancer do not necessarily place a woman at any higher risk for recurrence. (Women with a first cancer, however, do have a higher risk for a new cancer in the opposite breast. The outlook for such new cancers is independent from those of the first one.) The location of the tumor is a major factor in outlook:
The location of the tumor within the breast is an important predictor. Tumors that develop toward the outside of the breast tend to be less serious than those that occur more toward the middle of the breast. Breast cancer cells may contain receptors, or binding sites, for the hormones estrogen and progesterone. Cells containing these binding sites are known as hormone receptor-positive cells. If cells lack these connectors, they are called hormone receptor-negative cells. About 75% of breast cancers are estrogen receptor-positive (ER-positive, or ER+). About 65% of ER-positive breast cancers are also progesterone receptor-positive (PR-positive, or PR+). Cells that have receptors for one of these hormones, or both of them, are considered hormone receptor-positive. Hormone receptor-positive cancer is also called "hormone sensitive" because it responds to hormone therapy such as tamoxifen or aromatose inhibitors. Hormone receptor-negative tumors are referred to as "hormone insensitive" or "hormone resistant." Women have a better prognosis if their tumors are hormone receptor-positive because these cells grow more slowly than receptor-negative cells. In addition, women with hormone receptor-positive cancer have more treatment options. (Hormone receptor-negative tumors can be treated only with chemotherapy.) A 2007 study in the Journal of Clinical Oncology indicated that recent declines in breast cancer mortality rates have been most significant among women with estrogen receptor-positive tumors, due in part to the widespread use of post-surgical tamoxifen therapy. Determining a "genetic signature" for a tumor may prove to be a very powerful predictor of the aggressive nature of a breast cancer. Researchers have focused on 70 genes whose activity patterns may help make such predictions. In 2007, the Food and Drug Administration approved MammaPrint, a DNA microarray diagnostic test that profiles these 70 genes. The molecular test may help predict how likely it is that breast cancer will recur within 5 - 10 years. However, the accuracy of the test depends on a woman’s risk. It is more accurate when predicting a low risk for recurrence than a high risk. The relevance of the inherited BRCA1 or BRCA2 mutations to survival is controversial. Some studies have suggested that these mutations offer a survival advantage. Others suggest that they make no difference or even worsen prognosis. Women with these genetic mutations do have a greater risk for a new cancer to develop. Patients with BRCA1 mutations tend to develop tumors that are hormone receptor negative, which can behave more aggressively. Researchers are investigating numerous substances in tumor cells that may indicate whether or not a cancer is likely to spread. Such chemical markers may help doctors determine treatments, and some may even prove to be targets for future drugs. The following are only a few of the more well-researched markers. HER2. The American Cancer Society recommends that all women newly diagnosed with breast cancer get a biopsy test for a growth-promoting protein called HER2/neu. HER2-positive cancer usually occurs in younger women and is more quickly-growing and aggressive than other types of breast cancer. The HER2 marker is present in about 20% of cases of invasive breast cancer. Two types of tests are used to detect HER2:
Some doctors think that FISH is a more accurate test than IHC. According to 2006 HER2 testing guidelines from the American Society of Clinical Oncology and the College of American Pathologists, either test may be used as long as it is performed by an accredited laboratory. Tests that are not clearly positive or negative should be repeated. Treatment with trastuzumab (Herceptin) or lapatinib (Tykerb) may help women who test positive for HER2. Angiogenesis Factors. Angiogenesis is the growth of new blood vessels. High levels of angiogenesis factors indicate that the tumor is developing its own supply of blood vessels, which enable the tumor to send colonies of cancer cells into the bloodstream and spread to other parts of the body. Specific angiogenesis factors, such as vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF), may turn out to be important markers for determining treatment and prognosis. The monoclonal antibody bevacizumab (Avastin) targets VEGF. The drug is showing promise in clinical trials for prolonging progression-free survival in women with metastatic breast cancer. Others. Many other markers are being investigated, including p53, cathepsin-D, protein c-erbB-2, bcl-2, Ki-67, telomerase, thymidylate synthase, CA 15-3, and carcinogenic embryonic antigen (CEA). The American Society of Clinical Oncology (ASCO) cautions, however, that the value of many of these factors has not yet been confirmed. Tumor Size and Shape. Large tumors pose a higher risk than small tumors. Undifferentiated tumors, which have indistinct margins, are more dangerous than those with well-defined margins. Rate of Cell Division. The more rapidly a tumor grows, the more dangerous it is. Several tests measure aspects of cancer cell division and may eventually prove to predict the disease. For example, the mitotic index (MI) is a measurement of the rate at which cells divide. The higher the MI, the more aggressive the cancer. Another test measures cells at a certain phase of their division. Recent evidence has not supported early reports of survival benefits for women with metastatic breast cancer who engage in support groups. However, some studies have suggested that psychotherapy, group support, or both may relieve pain and reduce stress, particularly in women who are suffering emotionally. Stress has been ruled out as a risk factor either for breast cancer itself or for its recurrence. TreatmentThe three major treatments of breast cancer are surgery, radiation, and drug therapy. No one treatment fits every patient, and combination therapy is usually required. The choice is determined by many factors, including the age of the patient, menopausal status, the kind of cancer (ductal vs. lobular), its stage, and whether or not the tumor contains hormone-receptors. Breast cancer treatments are defined as local or systemic:
Any or all of these therapies may be used separately or, most often, in different combinations. For example, radiation alone or with chemotherapy or hormone therapy may be beneficial before surgery, if the tumor is large or not easily removed at prevention. Surgery followed by radiation and hormone therapy is usually recommended for women with early-stage, hormone-sensitive cancer. There are numerous clinical trials investigating new treatments and treatment combinations. Patients, especially those with advanced stages of cancer, may wish to consider enrolling in a clinical trial. Treatment strategies depend in part on the stage of the cancer. Stage 0 (Carcinoma in Situ). Stage 0 breast cancer is considered non-invasive (‘in situ"), meaning that the cancer is still confined within breast ducts or lobules and has not yet spread to surrounding tissues. Stage 0 cancer is classified as either:
Treatment options for DCIS include:
Treatment options for LCIS include:
Stage I and II (Early-Stage Invasive). In stage I cancer, cancer cells have not spread beyond the breast, and the tumor is no more than 2 cm (about 3/4 of an inch) across. Stage II cancer is classified as either stage IIA or stage IIb. In stage IIA cancer the tumor is either:
Treatment options for stage I and stage II breast cancer may include:
Stage III (Locally Advanced). Stage III breast cancer is classified into several sub-categories: Stage IIIA, stage IIIB, and stage IIIC (operable or inoperable). In stage IIIA breast cancer, the tumor is usually confined to the underarm lymph nodes. Treatment options for stage IIIA breast cancer are the same as those for stages I and II. In stage IIIB breast cancer, the tumor has spread to either:
Stage IIIB treatment options may include:
Stage IIIC breast cancer is classified as either operable or inoperable. In operable stage IIIC, the cancer may be found in:
Treatment options for operable stage III breast cancer are the same as those for stage I and II breast cancers. In inoperable stage III breast cancer, the cancer has spread to lymph nodes above the collarbone and near the neck on the same side of the body as the affected breast. Treatment options are the same as those for stage IIIB. Stage IV (Advanced Cancer). In stage IV, the cancer has spread (metastasized) from the breast to other parts of the body. In about 75% of cases, the cancer has spread to the bone. The cancer at this stage is considered to be chronic and incurable, and the usefulness of treatments is limited. The goals of treatment for stage IV cancer are to stabilize the disease and slow its progression, as well as to reduce pain and discomfort. Treatment options for stage IV cancer include:
In 2006, the American Society of Clinical Oncology (ASCO) released updated guidelines on follow-up care for patients who have been treated for breast cancer. ASCO recommends:
ASCO does not recommend the use of laboratory blood tests (complete blood counts, carcinoembryonic antigen) or imaging tests (bone scans, chest x-rays, liver ultrasound, FDG-PET scan, CT scan) for routine breast cancer follow-up. Genetic counseling may be helpful if you have:
Pregnancy after Breast Cancer Treatment. There are no definite recommendations on how long a woman should wait to become pregnant after breast cancer treatment. Because of the connection between estrogen levels and breast cancer cell growth, some experts recommend delaying pregnancy until 2 years after treatment in order to reduce the risk of cancer recurrence and improve odds for survival. However, a 2007 study indicated that conceiving 6 months after treatment does not negatively affect survival. Discuss with your doctor your risk for recurrence, and when it may be safe to attempt pregnancy. Recurrent breast cancer is considered to be an advanced cancer. In such cases, the disease has come back in spite of the initial treatment. Most recurrences appear within the first 2 - 3 years after treatment, but breast cancer can recur many years later. Treatment options are based on the stage at which the cancer reappears, whether or not the tumor is hormone responsive, and the age of the patient. Between 10 - 20% of recurring cancers are local. Most recurrent cancers are metastatic. All patients with recurring cancer are candidates for clinical trials. Because most breast cancer recurrences are discovered by patients in between doctor visits, it is important to notify your doctor if you experience any of the following symptoms. These symptoms may be signs of breast cancer recurrence:
SurgerySurgery forms a part of nearly every patient's treatment for breast cancer. The initial surgical intervention is often a lumpectomy, the removal of the tumor itself. In the past, mastectomy (the removal of the breast) was the standard treatment for nearly all breast cancers. Now, many patients with early-stage cancers can choose breast-conserving treatment, or lumpectomy followed by radiation, with or without chemotherapy. For invasive breast cancer, studies indicate that lumpectomy or partial mastectomy combined with radiation therapy works as well as a modified radical mastectomy. Breast-conserving procedures are now appropriate and as successful as mastectomy in most women with early stage breast cancer. All women should discuss these options fully with their doctor. Recurrence rates with conservative surgery are highest in women under age 45. Some women choose mastectomy over breast-conserving treatment even if the latter is appropriate because it gives them a greater sense of security and allows them to avoid radiation therapy. Lumpectomy. Lumpectomy is the removal of the tumor, often along with lymph nodes in the armpit. It serves as an opportunity for biopsy, a diagnostic tool, and a primary treatment for small local breast tumors. If invasive cancer is found, the doctor will decide to proceed with breast radiation therapy, to remove additional tissue (should the margins of the specimen show signs of cancer), or to perform a mastectomy. Lumpectomy followed by radiation therapy is appropriate and as effective as mastectomy in most women with Stage I or II breast cancers.  Click the icon to see an illustrated series detailing breast lump removal surgery. Breast-Conserving Surgery (Quadrantectomy). Breast-conserving surgery (sometimes referred to as quadrantectomy) removes the cancer and a large area of breast tissue, occasionally including some of the lining over the chest muscles. It is less invasive than a full mastectomy, but the cosmetic results are less satisfactory than with a lumpectomy. Excellent studies have found that breast-conserving surgeries plus postoperative radiotherapy offer the same survival rates as radical mastectomy in women with early breast cancer. A new technology called partial breast radiation (MammoSite), approved by the Food and Drug Administration in 2002, confines radiation to the tumor site rather than delivering it to the whole breast, and reduces treatment time from 5 weeks to 5 days in women who undergo breast conserving surgery. Surgery to remove the breast (mastectomy) is important for women with operable breast cancer who are not candidates for breast conserving surgeries. There are different variations on the procedure:
Click the icon to see an illustrated series detailing mastectomy surgery. Complications and Side Effects of Surgery. Short-term pain and tenderness occur in the area of the procedure, and pain relievers may be necessary. The most frequent complication of extensive lymph node removal is edema, or swelling, of the arm, which is usually mild and rarely painful but does increase the risk for infection. The likelihood of edema can be lessened by removing only some of the lymph nodes instead of all of them. Infrequent complications include poor wound healing, bleeding, or a reaction to the anesthesia. After mastectomy and lymph node removal, women may experience numbness, tingling, and difficulty in extending the arm fully. These effects can last for months or years afterward. After a mastectomy, some women choose a breast prosthesis or opt for breast reconstruction, which can be performed during the mastectomy itself, if desired. Several studies have indicated that women who take advantage of cosmetic surgery after breast cancer have a better sense of well-being and a higher quality of life than women who do not choose reconstructive surgery. The breast is reshaped using a saline implant or, for a more cosmetic result, a muscle flap is taken from elsewhere in the body. Muscle flap procedures are more complicated, however, and blood transfusions may be required. (It should be noted that implants, including silicone implants, do not appear to put a woman at risk for breast cancer recurrence.) If the nipple is removed, it is rebuilt from other body tissues and color is applied using tattoo techniques. It is nearly impossible to rebuild a breast that is identical to its partner, and additional operations may be necessary to achieve a desirable effect.  Click the icon to see an illustrated series detailing breast reconstruction surgery. Numerous studies are investigating minimally invasive techniques that use lasers, deep-freezing of cancer cells (cryosurgery), high-intensity ultrasound, and other experimental approaches to kill cancer cells and reduce severe complications of surgery. Radiofrequency ablation, for example, is an approach that uses an electrode inserted into the tumor. It emits radio waves that produce enough heat to destroy cancer cells. Early trials are promising. These procedures, however, are not considered standard at the present time. RadiationRadiation therapy uses high-energy x-rays to kill cancer cells or to shrink the size of a tumor in the breast or surrounding tissue. It is used for several weeks following lumpectomy or partial mastectomy, and sometimes after full mastectomy. Radiation therapy can help reduce the chance of breast cancer recurrence in the breast and chest wall. Radiation is also important in advanced stages of cancer for relief of symptoms and to slow progression. Research shows that radiation therapy is helpful for women of all ages, including those over age 65. Radiation is generally administered in the following ways: External Beam Radiation. This type of radiation is administered 4 - 6 weeks after surgery and delivered externally by an x-ray machine that targets radiation to the whole breast. It may be delivered to the chest wall in high-risk patients (large tumors, close surgical margins, or lymph node involvement). The treatment is generally given daily (except for weekends) for about 6 weeks. A follow-up boost of radiation therapy in patients with lumpectomies appears to reduce the risk for recurrence. Brachytherapy. Less commonly, radiation is delivered in implants (called brachytherapy). Implants are most often used as a radiation boost after whole breast radiation. Studies suggest they improve survival in patients at high risk for local recurrence. Some evidence suggests that implants alone can reduce treatment time and may be as effective as external beam radiation in some patients with early stage breast cancer. A new technology for breast brachytherapy (MammoSite) was approved in 2002. The technique provides 5-year local tumor control rates similar to those of whole-breast radiation for selected patients, with much shorter treatment time and good cosmetic results. Investigators are also testing other approaches to radiation treatment. One uses a combination of neutrons and protons (mixed-beam) or proton beams rather than the standard photon radiation therapy. Intensity-modulated radiation therapy is a promising technique that delivers different doses to multiple target areas using images of specific regions. Such an approach may improve the coverage of breast cancers while reducing the toxic effects to the heart and lungs. Side effects of radiation include:
Future complications include:
Current advanced imaging techniques use precise radiation that reduces exposure. These newer techniques are likely to reduce the risks for heart disease and other serious complications. MedicationsThe most important advances in the cure of breast cancer have come through the use of drug therapy, also called systemic therapy. Surgery and radiation therapy are effective for treating tumors confined to the breast but not for cancer cells that have spread or are at risk of spreading. In such cases, drug therapy is needed. Drug treatments for breast cancer include:
Drug therapy may be used as:
For metastatic cancer, drugs are used not to cure but to improve quality of life and prolong survival. ChemotherapyChemotherapy needs to be tailored to the type of cancer involved. Women require different treatments depending on whether the tumor is node-negative or -positive, hormone receptor-positive or -negative, or HER2-positive or -negative. Different treatment approaches are also used for early-stage cancer and advanced cancer. A 2006 study in the Journal of the American Medical Association indicated that women with hormone receptor-negative cancers respond better to chemotherapy than women with hormone receptor-positive cancer. However, some women with hormone receptor-positive cancer do benefit from chemotherapy, as well as from hormone therapy. Adjuvant chemotherapy is administered following surgery and before radiation therapy. A 2007 study in the Journal of Clinical Oncology suggested that women with early-stage breast cancer can safely wait for up to 12 weeks after surgery before beginning chemotherapy. However, delaying chemotherapy until more than 12 weeks after surgery significantly increases the risk for breast cancer recurrence and can reduce the odds for survival by as much as 60%. Many different types of chemotherapy drugs are used to treat breast cancer. Common types of chemotherapy drug classes include:
Some of the abbreviations used for chemotherapy drug combinations (regimens) refer to drug classes rather than drug names. For example, regimens that contain an anthracycline drug (such as doxorubicin) use the letter "A," and regimens that contain a taxane drug (such as docetaxel) use the letter "T." Cyclophosphamide (Cytoxan), fluorouracil (5-FU), and methotrexate (MTX) are standard cancer drugs used in many breast cancer chemotherapy regimens. Chemotherapy regimens usually consist of 4 - 6 cycles of treatment given over 3 - 6 months. Common chemotherapy regimens for early-stage breast cancer include:
Trastuzumab (Herceptin). Trastuzumab is a monoclonal antibody that targets the HER2 protein on cancer cells. HER2-positive cancers account for 15 - 25% of early-stage breast cancer and are associated with more aggressive disease. Younger women tend to be most affected. In November 2006, the Food and Drug Administration approved trastuzumab for treatment of HER2-positive, early-stage breast cancer (cancer confined to the breasts or lymph nodes that has been surgically removed). Trastuzumab is given along with other chemotherapy drugs following lumpectomy or mastectomy. Research indicates that trastuzumab can help prevent cancer recurrence and death among women with early-stage breast cancer, but it increases the risk of heart problems. Trastuzumab can cause heart failure. Women who have heart failure or weak heart muscle (cardiomyopathy) should not use this drug. Women who take trastuzumab need to have regular heart monitoring, especially if they have already have heart problems. Patients who develop metastatic disease (cancer that spreads throughout the body) are generally not curable. New advances in drug therapies, however, can help shrink tumors, prolong survival, and improve quality of life. Chemotherapy regimens for advanced cancer may use a single drug or a combination of drugs. Many chemotherapy regimens used for early-stage breast cancer are also used for advanced breast cancer. Some specific combinations for advanced cancer include:
Numerous chemotherapy drugs and drug combinations are being tested in clinical trials. Patients with advanced breast cancer may also receive other types of drug treatments. Bisphosphonate drugs, such as zoledronic acid (Zometa) and pamidronate (Aredia), are important supportive drugs for preventing fractures and reducing pain in people whose cancer has spread to the bones. Two targeted therapy drugs are approved for the treatment of HER2-positive advanced breast cancer
Promising new treatments for advanced breast cancer include:
Side effects occur with all chemotherapeutic drugs. They are more severe with higher doses and increase over the course of treatment. Common side effects include:
Serious short- and long-term complications can also occur and may vary depending on the specific drugs used. They include the following:
High-dose chemotherapy along with peripheral-blood stem cell rescue or bone marrow transplantation procedures have been used for cancer that has metastasized and, in some cases, for earlier stages of breast cancer in high-risk patients. The objective of this treatment is to be able to give patients very high toxic doses of cell-killing drugs. Transplantation procedures are based on stem cells, which are produced in the bone marrow. Stem cells are the early forms for all blood cells in the body (including red, white, and immune cells). Cancer treatments can harm these growing cells as well as cancer cells. Despite the initial enthusiasm over the use of high-dose therapy for treatment of high risk breast cancer, this approach can no longer be generally recommended and should not be used outside of a clinical trial setting. The results of several randomized studies have failed to show a convincing advantage for the use of high-dose therapy. Nevertheless, some experts believe this approach can still be useful in selected patients, and studies continue. In general, however, transplantation has a limited role in breast cancer management, and its use should be restricted to clinical trials. Hormone TherapyHormone therapy works by blocking estrogen that causes cell proliferation. It is used only for patients with hormone receptor-positive tumors. Different types of hormone therapy work in different ways by:
Tamoxifen was the first widely used hormonal therapy drug, but it has been replaced by aromatase inhibitors for some women. Aromatase inhibitors are used only to treat postmenopausal women. Tamoxifen is mainly used as adjuvant therapy for premenopausal women with hormone-sensitive breast cancer. Tamoxifen (Nolvadex) has been the standard hormonal drug used for breast cancer. It belongs to a class of compounds called selective estrogen receptor modulators (SERMs). SERMs chemically resemble estrogen and trick the breast cancer cells into accepting it in place of estrogen. Unlike estrogen, however, they do not stimulate breast cancer cell growth. Because SERMs block estrogen’s effects on cancer cells, they are sometimes referred to as "anti-estrogen" drugs. Tamoxifen is used for all cancer stages in women of all ages with hormone receptor-positive cancers. In addition, it is used to prevent breast cancer in high-risk women. Another SERM drug, toremifene (Fareston), is an option for women with advanced cancer, but this drug is rarely used in the United States. A third drug, fulvestrant (Faslodex), works in a similar anti-estrogen way to tamoxifen but belongs to a different drug class. Fulvestrant is approved only for postmenopausal women with hormone-sensitive advanced breast cancer in which tamoxifen or aromatase inhibitors no longer work. To prevent cancer recurrence, women should take tamoxifen for 5 years following surgery and radiation. Tamoxifen is an effective cancer treatment, but it can cause unpleasant side effects and has small (less than 1%) but serious risks for blood clots and uterine (endometrial) cancer. Immediately report any signs of vaginal bleeding to the doctor, as this may be a symptom of uterine cancer. Less serious, but discomforting, side effects include hot flashes and mood swings. According to a 2007 study, nearly 25% of women stop taking tamoxifen within 1 year because of these symptoms. By 3.5 years, over 33% stop treatment. Taking tamoxifen for fewer than 5 years, however, increases the risk for cancer recurrence and death. Talk with your doctor about antidepressants or other therapies that may help you cope with tamoxifen’s side effects. Many doctors now recommend that postmenopausal women switch to an aromatase inhibitor after 2 - 3 years of tamoxifen therapy. Several 2007 studies indicated that switching from tamoxifen to an aromatase inhibitor significantly improves survival rates and reduces the risk of death from breast cancer as well as other causes.  Endometrial cancer is a cancerous growth of the endometrium (lining of the uterus). It is the most common uterine cancer. Aromatase inhibitors block aromatase, an enzyme that is a major source of estrogen in many major body tissues, including the breast, muscle, liver, and fat. Aromatase inhibitors work differently than tamoxifen. Tamoxifen interferes with tumors’ ability to use estrogen by blocking their estrogen receptors. Aromatase inhibitors reduce the overall amount of estrogen in the body. Because these drugs cannot stop the ovaries of premenopausal women from producing estrogen, they are recommended only for postmenopausal women. There are currently three aromatase inhibitors approved for treating early-stage, hormone receptor-positive breast cancer in postmenopausal women:
All of these drugs are also approved for women with advanced (metastatic) hormone-sensitive breast cancer. Studies indicate that the introduction of aromatase inhibitors has helped greatly in prolonging survival for women with advanced cancer. Compared to tamoxifen, aromatase inhibitors are less likely to cause blood clots and uterine cancer. However, these drugs are more likely to cause osteoporosis, which can lead to bone loss and fractures. In general, recent studies indicate that aromatase inhibitors are better than tamoxifen in improving survival and reducing the risk of cancer recurrence. Unfortunately, like tamoxifen, they can cause hot flashes, as well as joint pain. Ovarian ablation literally shuts down estrogen production from the ovaries. Medications can accomplish ovarian ablation. Destroying the ovaries with surgery or radiation can also shut down estrogen production. (Osteoporosis is one serious side effect of this approach, but several therapies are available to help prevent bone loss.) Chemical Ovarian Ablation. Drug treatment (non-chemotherapy drugs) to block ovarian production of estrogen is called chemical ovarian ablation. It is often reversible. The primary drugs used are luteinizing hormone-releasing hormone (LHRH) agonists, such as goserelin (Zoladex). (They are also sometimes called GnRH agonists). These drugs block the release of the reproductive hormones LH-RH, therefore stopping ovulation and estrogen production. Studies suggest that women with estrogen-positive early stage cancer who take goserelin have similar survival rates to those who take standard chemotherapy. They also experience fewer serious side effects. A major analysis of four trials using LHRH agonists plus tamoxifen suggested that this combination should be the standard for patients with advanced breast cancers that are hormone-receptor positive, although this is an area of controversy. (Chemotherapy is still more effective in women with estrogen-negative tumors.) Ovariectomy. Ovariectomy, the removal of the ovaries, has modestly improved breast cancer survival rates in some premenopausal women whose tumors are hormone receptor-positive. In these women, combining this procedure with tamoxifen may improve results beyond those of standard chemotherapies. Ovariectomy does not benefit women after menopause, and its advantages can be blunted in women who have received adjuvant chemotherapy. The procedure causes sterility and can have a major negative emotional impact on younger patients. Resources
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