Breast Cancer
Breast cancer (malignant breast neoplasm) is cancers originating from breast tissue, most commonly from the inner lining of milk ducts or the lobules that supply the ducts with milk. Cancers originating from ducts are known as ductal carcinomas; those originating from lobules are known as lobular carcinomas. There are many different types of breast cancer, with different stages (spread), aggressiveness, and genetic makeup; survival varies greatly depending on those factors. Computerized models are available to predict survival.
With best treatment and dependent on staging, 10-year disease-free survival varies from 98% to 10%. Treatment includes surgery, drugs (hormonal therapy and chemotherapy), and radiation.
Worldwide, breast cancer comprises 10.4% of all cancer incidence among women, making it the second most common type of non-skin cancer (after lung cancer) and the fifth most common cause of cancer death. In 2004, breast cancer caused 519,000 deaths worldwide (7% of cancer deaths; almost 1% of all deaths). Breast cancer is about 100 times more common in women than in men, although males tend to have poorer outcomes due to delays in diagnosis.
Some breast cancers require the hormones estrogen and progesterone to grow, and have receptors for those hormones. After surgery those cancers are treated with drugs that interfere with those hormones, usually tamoxifen, and with drugs that shut off the production of estrogen in the ovaries or elsewhere; this may damage the ovaries and end fertility. After surgery, low-risk, hormone-sensitive breast cancers may be treated with hormone therapy and radiation alone. Breast cancers without hormone receptors, or which have spread to the lymph nodes in the armpits, or which express certain genetic characteristics, are higher-risk, and are treated more aggressively. One standard regimen, popular in the U.S., is cyclophosphamide plus doxorubicin (Adriamycin), known as CA; these drugs damage DNA in the cancer, but also in fast-growing normal cells where they cause serious side effects. Sometimes a taxane drug, such as docetaxel, is added, and the regime is then known as CAT; taxane attacks the microtubules in cancer cells. An equivalent treatment, popular in Europe, is cyclophosphamide, methotrexate, and fluorouracil (CMF).[9] Monoclonal antibodies, such as trastuzumab (Herceptin), are used for cancer cells that have the HER2 mutation. Radiation is usually added to the surgical bed to control cancer cells that were missed by the surgery, which usually extends survival, although radiation exposure to the heart may cause damage and heart failure in the following years.
1 Classification
2 Signs and symptoms
3 Risk factors
4 Pathophysiology
5 Diagnosis
6 Screening
7 Treatment
7.1 Medications
7.2 Radiation
8 Prognosis
8.1 Psychological aspects
9 Epidemiology
9.1 United States
9.2 UK
9.3 Developing countries
10 History
11 Society and culture
11.1 Art
12 Cell lines for research
13 See also
14 References
15 External links
Classification
Main article: Breast cancer classification
Breast cancers can be classified by different schemata. Every aspect influences treatment response and prognosis. Description of a breast cancer would optimally include multiple classification aspects, as well as other findings, such as signs found on physical exam. Classification aspects include stage (TNM), pathology, grade, receptor status, and the presence or absence of genes as determined by DNA testing.
Stage. The TNM classification for breast cancer is based on the size of the tumor (T), whether or not the tumor has spread to the lymph nodes (N) in the armpits, and whether the tumor has metastasized (M) (i.e. spread to a more distant part of the body). Larger size, nodal spread, and metastasis have a larger stage number and a worse prognosis.
The main stages are:
Stage 0 is a pre-malignant disease or marker (sometimes called DCIS: Ductal Carcinoma in Situ) .
Stages 1–3 are defined as 'early' cancer and potentially curable.
Stage 4 is defined as 'advanced' and/or 'metastatic' cancer and incurable.
Histopathology. Breast cancer is usually, but not always, primarily classified by its histological appearance. Most breast cancers are' derived from the epithelium lining the ducts or lobules, and are classified as mammary ductal carcinoma. Carcinoma in situ is proliferation of cancer cells within the epithelial tissue without invasion of the surrounding tissue. In contrast, invasive carcinoma invades the surrounding tissue.
Grade (Bloom-Richardson grade). When cells become differentiated, they take different shapes and forms to function as part of an organ. Cancerous cells lose that differentiation. In cancer grading, tumor cells are generally classified as well differentiated (low grade), moderately differentiated (intermediate grade), and poorly differentiated (high grade). Poorly differentiated cancers have a worse prognosis.
Receptor status. Cells have receptors on their surface and in their cytoplasm and nucleus. Chemical messengers such as hormones bind to receptors, and this causes changes in the cell. Breast cancer cells may or may not have three important receptors: estrogen receptor (ER), progesterone receptor (PR), and HER2/neu. Cells with none of these receptors are called basal-like or triple negative. ER+ cancer cells depend on estrogen for their growth, so they can be treated with drugs to block estrogen effects (e.g. tamoxifen), and generally have a better prognosis.
Generally, HER2+ had a worse prognosis, however HER2+ cancer cells respond to drugs such as the monoclonal antibody, trastuzumab, (in combination with conventional chemotherapy) and this has improved the prognosis significantly.
DNA microarrays have compared normal cells to breast cancer cells and found differences in hundreds of genes, but the significance of most of those differences is unknown.
Signs and symptoms
Breast cancer showing an inverted nipple, lump, skin dimpling
The first noticeable symptom of breast cancer is typically a lump that feels different from the rest of the breast tissue. More than 80% of breast cancer cases are discovered when the woman feels a lump.[14] By the time a breast lump is noticeable, it has probably been growing for years. The earliest breast cancers are detected by a mammogram.Lumps found in lymph nodes located in the armpits can also indicate breast cancer.
Indications of breast cancer other than a lump may include changes in breast size or shape, skin dimpling, nipple inversion, or spontaneous single-nipple discharge. Pain ("mastodynia") is an unreliable tool in determining the presence or absence of breast cancer, but may be indicative of other breast health issues.
When breast cancer cells invade the dermal lymphatics—small lymph vessels in the skin of the breast—its presentation can resemble skin inflammation and thus is known as inflammatory breast cancer (IBC). Symptoms of inflammatory breast cancer include pain, swelling, warmth and redness throughout the breast, as well as an orange-peel texture to the skin referred to as peau d'orange.
Another reported symptom complex of breast cancer is Paget's disease of the breast. This syndrome presents as eczematoid skin changes such as redness and mild flaking of the nipple skin. As Paget's advances, symptoms may include tingling, itching, increased sensitivity, burning, and pain. There may also be discharge from the nipple. Approximately half of women diagnosed with Paget's also have a lump in the breast.
Occasionally, breast cancer presents as metastatic disease, that is, cancer that has spread beyond the original organ. Metastatic breast cancer will cause symptoms that depend on the location of metastasis. Common sites of metastasis include bone, liver, lung and brain. Unexplained weight loss can occasionally herald an occult breast cancer, as can symptoms of fevers or chills. Bone or joint pains can sometimes be manifestations of metastatic breast cancer, as can jaundice or neurological symptoms. These symptoms are "non-specific", meaning they can also be manifestations of many other illnesses.
Most symptoms of breast disorder do not turn out to represent underlying breast cancer. Benign breast diseases such as mastitis and fibroadenoma of the breast are more common causes of breast disorder symptoms. The appearance of a new symptom should be taken seriously by both patients and their doctors, because of the possibility of an underlying breast cancer at almost any age.
Risk factors
Main article: Risk factors of breast cancer
The primary risk factors that have been identified are sex,age,lack of childbearing or breastfeeding,and higher hormone levels,
In a study published in 1995, well-established risk factors accounted for 47% of cases while only 5% were attributable to hereditary syndromes.
Genetic factors usually increase the risk slightly or moderately; the exception is women and men who are carriers of BRCA mutations. These people have a very high lifetime risk for breast and ovarian cancer, depending on the portion of the proteins where the mutation occurs. Instead of a 12 percent lifetime risk of breast cancer, women with one of these genes has a risk of approximately 60 percent. In more recent years, research has indicated the impact of diet and other behaviors on breast cancer. These additional risk factors include a high-fat diet,
alcohol intake, obesity, and environmental factors such as tobacco use, radiation, endocrine disruptors and shiftwork.
Although the radiation from mammography is a low dose, the cumulative effect can cause cancer.
In addition to the risk factors specified above, demographic and medical risk factors include.
Personal history of breast cancer: A woman who had breast cancer in one breast has an increased risk of getting cancer in her other breast.
Family history: A woman's risk of breast cancer is higher if her mother, sister, or daughter had breast cancer. The risk is higher if her family member got breast cancer before age 40. Having other relatives with breast cancer (in either her mother's or father's family) may also increase a woman's risk.
Certain breast changes: Some women have cells in the breast that look abnormal under a microscope. Having certain types of abnormal cells (atypical hyperplasia and lobular carcinoma in situ ) increases the risk of breast cancer.
Race: Breast cancer is diagnosed more often in women of European ancestry than those of African or Asian ancestry.
A National Cancer Institute (NCI) study of 72,000 women found that those who had a normal body mass index at age 20 and gained weight as they aged had nearly double the risk of developing breast cancer after menopause in comparison to women maintained their weight. The average 60 year-old woman's risk of developing breast cancer by age 65 is about 2 percent; her lifetime risk is 13 percent.
Abortion has not been found to be a risk factor for breast cancer. The breast cancer abortion hypothesis, however, continues to be promoted by some pro-life groups.
The United Kingdom is the member of International Cancer Genome Consortium that is leading efforts to map breast cancer's complete genome.
Pathophysiology
Main article: Carcinogenesis
Overview of signal transduction pathways involved in apoptosis. Mutations leading to loss of apoptosis can lead to tumorigenesis.
Breast cancer, like other cancers, occurs because of an interaction between the environment and a defective gene. Normal cells divide as many times as needed and stop. They attach to other cells and stay in place in tissues. Cells become cancerous when mutations destroy their ability to stop dividing, to attach to other cells and to stay where they belong. When cells divide, their DNA is normally copied with many mistakes. Error-correcting proteins fix those mistakes. The mutations known to cause cancer, such as p53, BRCA1 and BRCA2, occur in the error-correcting mechanisms. These mutations are either inherited or acquired after birth. Presumably, they allow the other mutations, which allow uncontrolled division, lack of attachment, and metastasis to distant organs.
Normal cells will commit cell suicide (apoptosis) when they are no longer needed. Until then, they are protected from cell suicide by several protein clusters and pathways. One of the protective pathways is the PI3K/AKT pathway; another is the RAS/MEK/ERK pathway. Sometimes the genes along these protective pathways are mutated in a way that turns them permanently "on", rendering the cell incapable of committing suicide when it is no longer needed. This is one of the steps that causes cancer in combination with other mutations. Normally, the PTEN protein turns off the PI3K/AKT pathway when the cell is ready for cell suicide. In some breast cancers, the gene for the PTEN protein is mutated, so the PI3K/AKT pathway is stuck in the "on" position, and the cancer cell does not commit suicide.
Mutations that can lead to breast cancer have been experimentally linked to estrogen exposure.
Failure of immune surveillance, the removal of malignant cells throughout one's life by the immune system.
Abnormal growth factor signaling in the interaction between stromal cells and epithelial cells can facilitate malignant cell growth.
People in less-developed countries report lower incidence rates than in developed countries.
In the United States, 10 to 20 percent of patients with breast cancer and patients with ovarian cancer have a first- or second-degree relative with one of these diseases. Mutations in either of two major susceptibility genes, breast cancer susceptibility gene 1 (BRCA1) and breast cancer susceptibility gene 2 (BRCA2), confer a lifetime risk of breast cancer of between 60 and 85 percent and a lifetime risk of ovarian cancer of between 15 and 40 percent. However, mutations in these genes account for only 2 to 3 percent of all breast cancers.
Diagnosis This section does not cite any references or sources.
Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (October 2007)
While screening techniques (which are further discussed below) are useful in determining the possibility of cancer, a further testing is necessary to confirm whether a lump detected on screening is cancer, as opposed to a benign alternative such as a simple cyst.
In a clinical setting, breast cancer is commonly diagnosed using a "triple test" of clinical breast examination (breast examination by a trained medical practitioner), mammography, and fine needle aspiration cytology. Both mammography and clinical breast exam, also used for screening, can indicate an approximate likelihood that a lump is cancer, and may also identify any other lesions. Fine Needle Aspiration and Cytology (FNAC), which may be done in a GP's office using local anaesthetic if required, involves attempting to extract a small portion of fluid from the lump. Clear fluid makes the lump highly unlikely to be cancerous, but bloody fluid may be sent off for inspection under a microscope for cancerous cells. Together, these three tools can be used to diagnose breast cancer with a good degree of accuracy.
Other options for biopsy include core biopsy, where a section of the breast lump is removed, and an excisional biopsy, where the entire lump is removed.
In addition vacuum-assisted breast biopsy (VAB) may help diagnose breast cancer among patients with a mammographically detected breast in women according to a systematic review .[48] In this study, summary estimates for vacuum assisted breast biopsy in diagnosis of breast cancer were as follows sensitivity was 98.1% with 95% CI = 0.972-0.987 and specificity was 100% with 95% CI = 0.997-0.999. However underestimate rates of atypical ductal hyperplasia (ADH) and ductal carcinoma in situ (DCIS) were 20.9% with 95% CI =0.177-0.245 and 11.2% with 95% CI = 0.098-0.128 respectively.
Excised human breast tissue, showing an irregular, dense, white stellate area of cancer 2 cm in diameter, within yellow fatty tissue.
Micrograph showing a lymph node invaded by ductal breast carcinoma and with extranodal extension of tumour.
Neuropilin-2 expression in normal breast and breast carcinoma tissue.
Lymph nodes which drain the breast
F-18 FDG PET/CT: Metastasis of a mamma carcinoma in the right scapula
Screening
Main article: Breast cancer screening
Breast cancer screening refers to testing otherwise-healthy women for breast cancer in an attempt to achieve an earlier diagnosis. The assumption is that early detection will improve outcomes. A number of screening test have been employed including: clinical and self breast exams, mammography, genetic screening, ultrasound, and magnetic resonance imaging.
A clinical or self breast exam involves feeling the breast for lumps or other abnormalities. Research evidence does not support the effectiveness of either type of breast exam, because by the time a lump is large enough to be found it is likely to have been growing for several years and will soon be large enough to be found without an exam.
Mammographic screening for breast cancer uses x-rays to examine the breast for any uncharacteristic masses or lumps. The Cochrane collaboration in 2009 concluded that mammograms reduce mortality from breast cancer by 15 percent but also result in unnecessary surgery and anxiety, resulting in their view that mammography screening may do more harm than good.
Many national organizations recommend regular mammography, nevertheless. For the average woman, the U.S. Preventive Services Task Force recommends mammography every two years in women between the ages of 50 and 74.
The Task Force points out that in addition to unnecessary surgery and anxiety, the risks of more frequent mammograms include a small but significant increase in breast cancer induced by radiation.
In women at high risk, such as those with a strong family history of cancer, mammography screening is recommended at an earlier age and additional testing may include genetic screening that tests for the BRCA genes and / or magnetic resonance imaging.
Treatment
Main article: Breast cancer treatment
Breast cancer is sometimes treated first with surgery, and then with chemotherapy, radiation, or both. Treatments are given with increasing aggressiveness according to the prognosis and risk of recurrence.
Stage 1 cancers (and DCIS) have an excellent prognosis and are generally treated with lumpectomy with or without chemotherapy or radiation.
Although the aggressive HER2+ cancers should also be treated with the trastuzumab (Herceptin) regime.
Stage 2 and 3 cancers with a progressively poorer prognosis and greater risk of recurrence are generally treated with surgery (lumpectomy or mastectomy with or without lymph node removal), radiation (sometimes) and chemotherapy (plus trastuzumab for HER2+ cancers).
Stage 4, metastatic cancer, (i.e. spread to distant sites) is not curable and is managed by various combinations of all treatments from surgery, radiation, chemotherapy and targeted therapies. These treatments increase the median survival time of stage 4 breast cancer by about 6 months.
Medications
Drugs used after and in addition to surgery are called adjuvant therapy. Chemotherapy prior to surgery is called neo-adjuvant therapy. There are currently 3 main groups of medications used for adjuvant breast cancer treatment . Hormone Blocking Therapy, Chemotherapy Monoclonal Antibodies One or all of these groups can be used.
Hormone Blocking Therapy: Some breast cancers require estrogen to continue growing. They can be identified by the presence of estrogen receptors (ER+) and progesterone receptors (PR+) on their surface (sometimes referred to together as hormone receptors, HR+). These ER+ cancers can be treated with drugs that either block the receptors, such as tamoxifen, or alternatively block the production of estrogen, such as the aromatase inhibitor, anastrozole (Arimidex).
Chemotherapy: Usually used for stage 1-4 disease. They are given in combinations. One of the most common treatments is cyclophosphamide plus doxorubicin (Adriamycin), known as AC; these drugs damage DNA in the cancer, but also in fast-growing normal cells where they cause serious side effects. Damage to the heart muscle is the most dangerous complication of doxorubicin. Sometimes a taxane drug, such as docetaxel, is added, and the regime is then known as CAT; taxane attacks the microtubules in cancer cells. Another common treatment, which produces equivalent results, is cyclophosphamide, methotrexate, and fluorouracil (CMF). (Chemotherapy can literally refer to any drug, but it is usually used to refer to traditional non-hormone treatments for cancer.)
Monoclonal antibodies: A relatively recent and very exciting development in HER2+ breast cancer treatment. Cancer cells have a receptor called HER2 on their surface. This receptor is normally stimulated by a growth factor which causes the cell to divide, however in the absence of the growth factor, the cell will normally stop growing. In approx 20% of invasive breast cancers, the HER2 receptor is stuck in the "on" position. The cell divides without stopping, producing an aggressive form of cancer. Trastuzumab (Herceptin), a monoclonal antibody to HER2, has dramatically improved the 5yr disease free survival of 'early' (stages 1–3) HER2+ breast cancers to about 87%.
Trastuzumab, however, is expensive, and approx 2% of patients suffer significant heart damage; it is otherwise well tolerated with far milder side effects than conventional chemotherapy.
Other monoclonal antibodies are also being trialled.
Finally, a recent article has claimed that Aspirin may reduce mortality from breast cancer.
Radiation
Radiotherapy is given after surgery to the region of the tumor bed, to destroy microscopic tumors that may have escaped surgery. It may also have a beneficial effect on tumour microenvironment.
Radiation therapy can be delivered as external beam radiotherapy or as brachytherapy (internal radiotherapy). Conventionally radiotherapy is given after the operation for breast cancer. Radiation can also be given, arguably more efficiently, at the time of operation on the breast cancer- intraoperatively. The largest randomised trial to test this approach was the TARGIT-A Trial which found that targeted intraoperative radiotherapy was equally effective at 4-years as the usual several weeks' of whole breast external beam radiotherapy .
Radiation can reduce the risk of recurrence by 50-66% (1/2 - 2/3rds reduction of risk) when delivered in the correct dose
and is considered essential when breast cancer is treated by removing only the lump (Lumpectomy or Wide local excision)
Prognosis
A prognosis is a prediction of outcome, usually the probability of death (or survival), and the probability of progression-free survival (PFS) or disease-free survival (DFS). These predictions are based on experience with breast cancer patients with similar classification. A prognosis is an estimate, as patients with the same classification will survive a different amount of time, and classifications are not always precise. Survival is usually calculated as an average number of months (or years) that 50% of patients survive, or the percentage of patients that are alive after 1, 5, 15 and 20 years. Prognosis is important for treatment decisions because patients with a good prognosis are usually offered less invasive treatments, such as lumpectomy and radiation or hormone therapy, while patients with poor prognosis are usually offered more aggressive treatment, such as more extensive mastectomy and one or more chemotherapy drugs.
Prognostic factors include staging, (i.e., tumor size, location, grade, whether disease has traveled to other parts of the body), recurrence of the disease, and age of patient.Stage is the most important, as it takes into consideration size, local involvement, lymph node status and whether metastatic disease is present. The higher the stage at diagnosis, the worse the prognosis. The stage is raised by the invasiveness of disease to lymph nodes, chest wall, skin or beyond, and the aggressiveness of the cancer cells. The stage is lowered by the presence of cancer-free zones and close-to-normal cell behaviour (grading). Size is not a factor in staging unless the cancer is invasive. For example, Ductal Carcinoma In Situ (DCIS) involving the entire breast will still be stage zero and consequently an excellent prognosis with a 10yr disease free survival of about 98%.
Grading is based on how biopsied, cultured cells behave. The closer to normal cancer cells are, the slower their growth and the better the prognosis. If cells are not well differentiated, they will appear immature, will divide more rapidly, and will tend to spread. Well differentiated is given a grade of 1, moderate is grade 2, while poor or undifferentiated is given a higher grade of 3 or 4 (depending upon the scale used).
Younger women tend to have a poorer prognosis than post-menopausal women due to several factors. Their breasts are active with their cycles, they may be nursing infants, and may be unaware of changes in their breasts. Therefore, younger women are usually at a more advanced stage when diagnosed. There may also be biologic factors contributing to a higher risk of disease recurrence for younger women with breast cancer.
The presence of estrogen and progesterone receptors in the cancer cell is important in guiding treatment. Those who do not test positive for these specific receptors will not be able to respond to hormone therapy, and this can affect their chance of survival depending upon what treatment options remain, the exact type of the cancer, and how advanced the disease is.
In addition to hormone receptors, there are other cell surface proteins that may affect prognosis and treatment. HER2 status directs the course of treatment. Patients whose cancer cells are positive for HER2 have more aggressive disease and may be treated with the 'targeted therapy', trastuzumab (Herceptin), a monoclonal antibody that targets this protein and improves the prognosis significantly. Tumors overexpressing the Wnt signaling pathway co-receptor low-density lipoprotein receptor-related protein 6 (LRP6) may represent a distinct subtype of breast cancer and a potential treatment target.
Psychological aspects
The emotional impact of cancer diagnosis, symptoms, treatment, and related issues can be severe. Most larger hospitals are associated with cancer support groups which provide a supportive environment to help patients cope and gain perspective from cancer survivors. Online cancer support groups are also very beneficial to cancer patients, especially in dealing with uncertainty and body-image problems inherent in cancer treatment.
Not all breast cancer patients experience their illness in the same manner. Factors such as age can have a significant impact on the way a patient copes with a breast cancer diagnosis. Premenopausal women with estrogen-receptor positive breast cancer must confront the issues of early menopause induced by many of the chemotherapy regimens used to treat their breast cancer, especially those that use hormones to counteract ovarian function.
On the other hand, a recent study conducted by researchers at the College of Public Health of the University of Georgia showed that older women may face a more difficult recovery from breast cancer than their younger counterparts.
As the incidence of breast cancer in women over 50 rises and survival rates increase, breast cancer is increasingly becoming a geriatric issue that warrants both further research and the expansion of specialized cancer support services tailored for specific age groups.
Epidemiology
Age-standardized death from breast cancer per 100,000 inhabitants in 2004. no data
less than 2
2-4
4-6
6-8
8-10
10-12
12-14
14-16
16-18
18-20
20-22
more than 22
Worldwide, breast cancer is the most common cancer in women, after skin cancer, representing 16% of all female cancers. The rate is more than twice that of colorectal cancer and cervical cancer and about three times that of lung cancer.Mortality worldwide is 25% greater than that of lung cancer in women. In 2004, breast cancer caused 519,000 deaths worldwide (7% of cancer deaths; almost 1% of all deaths). The number of cases worldwide has significantly increased since the 1970s, a phenomenon partly attributed to the modern lifestyles.
The incidence of breast cancer varies greatly around the world: it is lowest in less-developed countries and greatest in the more-developed countries. In the twelve world regions, the annual age-standardized incidence rates per 100,000 women are as follows: in Eastern Asia, 18; South Central Asia, 22; sub-Saharan Africa, 22; South-Eastern Asia, 26; North Africa and Western Asia, 28; South and Central America, 42; Eastern Europe, 49; Southern Europe, 56; Northern Europe, 73; Oceania, 74; Western Europe, 78; and in North America, 90.
Breast cancer is strongly related to age with only 5% of all breast cancers occur in women under 40 years old. However, it can occur in younger women.
United States
The lifetime risk for breast cancer in the United States is usually given as 1 in 8 (12.5%) with a 1 in 35 (3%) chance of death. A recent analysis however has called this estimate into question when it found a risk of only 6% in healthy women.
The United States has the highest annual incidence rates of breast cancer in the world; 128.6 per 100,000 in whites and 112.6 per 100,000 among African Americans. It is the second-most common cancer (after skin cancer) and the second-most common cause of cancer death (after lung cancer). In 2007, breast cancer was expected to cause 40,910 deaths in the US (7% of cancer deaths; almost 2% of all deaths). This figure includes 450-500 annual deaths among men out of 2000 cancer cases.
In the US, both incidence and death rates for breast cancer have been declining in the last few years in Native Americans and Alaskan Natives. Nevertheless, a US study conducted in 2005 indicated that breast cancer remains the most feared disease,even though heart disease is a much more common cause of death among women. Many doctors say that women exaggerate their risk of breast cancer.
Cancer occurence in females in the United States. Breast cancer is seen in light green at left. By mortality
Racial disparities
Several studies have found that black women in the U.S. are more likely to die from breast cancer even though white women are more likely to be diagnosed with the disease. Even after diagnosis, black women are less likely to get treatment compared to white women. Scholars have advanced several theories for the disparities, including inadequate access to screening, reduced availability of the most advanced surgical and medical techniques, or some biological characteristic of the disease in the African American population. Some studies suggest that the racial disparity in breast cancer outcomes may reflect cultural biases more than biological disease differences. However, the lack of diversity in clinical trials for breast cancer treatment may contribute to these disparities, with recent research indicating that black women are more likely to have estrogen receptor negative breast cancers, which are not responsive to hormone treatments that are effective for most white women.Research is currently ongoing to define the contribution of both biological and cultural factors.
UK
45,000 cases diagnosed and 12,500 deaths per annum. 60% of cases are treated with Tamoxifen, of these the drug becomes ineffective in 35%.
Developing countries
As developing countries grow and adopt Western culture they also accumulate more disease that has arisen from Western culture and its habits (fat/alcohol intake, smoking, exposure to oral contraceptives, the changing patterns of childbearing and breastfeeding, low parity). For instance, as South America has developed so has the amount of breast cancer. Breast cancer in less developed countries, such as those in South America, is a major public health issue. It is a leading cause of cancer-related deaths in women in countries such as Argentina, Uruguay, and Brazil. The expected numbers of new cases and deaths due to breast cancer in South America for the year 2001 are approximately 70,000 and 30,000, respectively. However, because of a lack of funding and resources, treatment is not always available to those suffering with breast cancer.
History
Breast cancer surgery in the 18th century
Breast cancer may be one of the oldest known forms of cancerous tumors in humans. The oldest description of cancer was discovered in Egypt and dates back to approximately 1600 BC. The Edwin Smith Papyrus describes 8 cases of tumors or ulcers of the breast that were treated by cauterization. The writing says about the disease, "There is no treatment. For centuries, physicians described similar cases in their practises, with the same conclusion. It was not until doctors achieved greater understanding of the circulatory system in the 17th century that they could establish a link between breast cancer and the lymph nodes in the armpit. The French surgeon Jean Louis Petit (1674–1750) and later the Scottish surgeon Benjamin Bell (1749–1806) were the first to remove the lymph nodes, breast tissue, and underlying chest muscle. Their successful work was carried on by William Stewart Halsted who started performing mastectomies in 1882. The Halsted radical mastectomy often involved removing both breasts, associated lymph nodes, and the underlying chest muscles. This often led to long-term pain and disability, but was seen as necessary in order to prevent the cancer from recurring.Radical mastectomies remained the standard until the 1970s, when a new understanding of metastasis led to perceiving cancer as a systemic illness as well as a localized one, and more sparing procedures were developed that proved equally effective.
The French surgeon Bernard Peyrilhe (1737–1804) realized the first experimental transmission of cancer by injecting extracts of breast cancer into an animal.
Prominent women who died of breast cancer include Empress Theodora, wife of Justinian; Anne of Austria, mother of Louis XIV of France; Mary Washington, mother of George, and Rachel Carson, the environmentalist.
The first case-controlled study on breast cancer epidemiology was done by Janet Lane-Claypon, who published a comparative study in 1926 of 500 breast cancer cases and 500 control patients of the same background and lifestyle for the British Ministry of Health.
Society and culture
A pink ribbon, the universal symbol of breast cancer awareness.
The widespread acceptance of second opinions before surgery, less invasive surgical procedures, support groups, and other advances in patient care have stemmed, in part, from the breast cancer advocacy movement.
October is recognized as National Breast Cancer Awareness Month by the media as well as survivors, family and friends of survivors and/or victims of the disease. A pink ribbon is worn to recognize the struggle that sufferers face when battling with the cancer. On the meaning of this, see Semiotics of breast cancer pink ribbon.
The patron saint of breast cancer is Agatha of Sicily.
In the fall of 1991, Susan G. Komen for the Cure handed out pink ribbons to participants in its New York City race for breast cancer survivors.
The pink and blue ribbon was designed in 1996 by Nancy Nick, President and Founder of the John W. Nick Foundation to bring awareness that "Men Get Breast Cancer Too!
In 2009 the male breast cancer advocacy groups Out of the Shadow of Pink, A Man's Pink and the Brandon Greening Foundation for Breast Cancer in Men joined together to globally establish the third week of October as "Male Breast Cancer Awareness Week"
In the first quarter of 2009, Anthony L. May the President and Founder of Men For A Cause, United Against Breast Cancer created the very symbolic Official Breast Cancer Awareness Flag to advocate year around breast cancer awareness.
Art
Possible breast cancer signs in historical paintings have been repeatedly discussed in medical literature. A typical lump, differences in breast size or shape and the peau d'orange can be found for example in works by Raphael, Rembrandt and Rubens. However if the visible changes are really dealing with breast cancer can not be proved and was therefore doubted.Examples of breast cancer signs in art
Raffaelo Sanzio (1483-1520): „Portrait of a young woman“ („La Fornarina“)
Peter Paul Rubens (1577–1640): „The Three Graces“
Rembrandt van Rijn (1606–1669): „Bathseba with David's Letter“
Details
Cell lines for research A considerable part of the current knowledge on breast carcinomas is based on in vivo and in vitro studies performed with breast cancer cell (BCC) lines. These provide an unlimited source of homogenous self-replicating material, free of contaminating stromal cells, and often easily cultured in simple standard media. The first line described, BT-20, was established in 1958. Since then, and despite sustained work in this area, the number of permanent lines obtained has been strikingly low (about 100). Indeed, attempts to culture BCC from primary tumors have been largely unsuccessful. This poor efficiency was often due to technical difficulties associated with the extraction of viable tumor cells from their surrounding stroma. Most of the available BCC lines issued from metastatic tumors, mainly from pleural effusions. Effusions provided generally large numbers of dissociated, viable tumor cells with little or no contamination by fibroblasts and other tumor stroma cells. Many of the currently used BCC lines were established in the late 1970s. A very few of them, namely MCF-7, T-47D, and MDA-MB-231, account for more than two-thirds of all abstracts reporting studies on mentioned BCC lines, as concluded from a Medline-based survey.
Treatments are constantly evaluated in randomized, controlled trials, to evaluate and compare individual drugs, combinations of drugs, and surgical and radiation techniques. The latest research is reported annually at scientific meetings such as that of the American Society of Clinical Oncology, San Antonio Breast Cancer Symposium, and the St. Gallen Oncology Conference in St. Gallen, Switzerland. These studies are reviewed by professional societies and other organizations, and formulated into guidelines for specific treatment groups and risk category.
List of cell lines
Mainly based on Lacroix and Leclercq (2004). For more data on the nature of TP53 mutations in breast cancer cell lines, see Lacroix et al. (2006).
This is an incomplete list, which may never be able to satisfy particular standards for completeness. You can help by expanding it with reliably sourced entries.Cell line Primary tumor Origin of cells Estrogen receptors Progesterone receptors ERBB2 amplification Mutated TP53 Tumorigenic in mice Reference
600MPE Invasive ductal carcinoma + - AU565 Adenocarcinoma - - + -
BT-20 Invasive ductal carcinoma Primary No No No Yes Yes
BT-474 Invasive ductal carcinoma Primary Yes Yes Yes Yes Yes
BT-483 Invasive ductal carcinoma + + -
BT-549 Invasive ductal carcinoma - - +
Evsa-T Invasive ductal carcinoma, mucin-producing, signet-ring type Metastasis (ascites) No Yes ? Yes ?
Hs578T Carcinosarcoma Primary No No No Yes No
MCF-7 Invasive ductal carcinoma Metastasis (pleural effusion) Yes
Yes No (wild-type) Yes (with estrogen supplementation)
MDA-MB-231 Invasive ductal carcinoma Metastasis (pleural effusion) No No No Yes Yes
SK-BR-3 Invasive ductal carcinoma Metastasis (pleural effusion) No No Yes Yes No
T-47D Invasive ductal carcinoma Metastasis (pleural effusion) Yes Yes No Yes Yes (with estrogen supplementation)
See also
Male breast cancer
Semiotics of breast cancer pink ribbon
List of notable breast cancer patients according to occupation
List of notable breast cancer patients according to survival status
List of breast carcinogenic substances
Mammary tumor for breast cancer in other animals
Breast reconstruction
External beam radiotherapy
Brachytherapy
Alcohol and cancer
Mammography Quality Standards Act
National Breast Cancer Coalition
National Comprehensive Cancer Network
Breast Cancer Action
Breakthrough Breast Cancer
Living Beyond Breast Cancer
International Agency for Research on Cancer
Susan G. Komen for the Cure
Breast Cancer Network of Strength
Your Disease Risk
Sentinel lymph node Biopsy, a new technique for staging the axilla
Kara Magsanoc-Alikpala Philippine activist against breast cancer.
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