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Metaplastic carcinoma

Metaplastic carcinoma, otherwise known as metaplastic carcinoma of the breast (MCB), is a heterogeneous group of cancers that exhibit varied patterns of metaplasia and differentiation along multiple cell lines. This rare and aggressive form of breast cancer is characterized as being composed of a mixed group of neoplasms containing both glandular and non-glandular patterns with epithelial and/or mesenchymal components. It accounts for fewer than 1% of all breast cancer diagnoses. It is most closely associated with invasive ductal carcinoma of no special type. (IDC), and shares similar treatment approaches. Relative to IDC, MCB generally has higher histological grade and larger tumor size at time of diagnoses, but a lower incidence of axillary lymph node involvement. MCB tumors are typically estrogen receptor (ER), progesterone receptor (PR), and human epidermal growth factor-2 (HER-2) negative, meaning hormone therapy is generally not an effective treatment option, which correlates to a relatively poor prognosis. MCB was first recognized as a distinct pathological entity in 2000 by the World Health Organization.Owing to its relatively recent pathological distinction, multiple classification systems have been adopted for MCB among different organizations and research groups. The World Health Organization classifies MCB under two categories: Epithelial-type and mixed-type. The epithelial-type is further classified as squamous cell carcinoma, adenocarcinoma with spindle cell differentiation, and adenosquamous carcinoma. The mixed-type is further classified as carcinoma with chondroid metaplasia, carcinoma with osseous metaplasia, and carcinosarcoma. Wargotz et al. proposed a classification system for MCB according to its cytopathological features. These classifications are spindle cell, squamous cells, matrix-producing, carcinosarcoma, and MCB with osteoclastic giant cell. Another research group, Oberman et al., proposed a classification system consisting of spindle cell carcinoma, invasive ductal carcinoma with extensive squamous metaplasia, and invasive ductal carcinoma with pseudosarcomatous metaplasia. The lack of consensus between these various classification systems for MCB has led to complications in both clinical practice and research studies.In most MCB cases, patients are women over the age of 50, indicating that age is a major factor in determining the risk of developing MCB. Genetics are another primary risk factor for developing MCB. Genetic mutations and family history both correlate to higher risk.The most common presenting symptom of MCB is a rapidly growing, palpable mass of the breast. If the tumor has metastasized, more severe symptoms will be presented, depending on the site of metastasis.Mammography is a standard diagnostic tool for MCB, where the tumors will typically display as a high-density mass. However, they can also mimic IDCs as well as benign lesions in the mammogram. Sonography is also often used to help diagnose MCB, where solid and cystic components may be observed. This is related to necrosis and cystic degeneration. In Fine-needle aspiration (FNA) smears, only 57% of cases show ductal carcinoma and metaplastic components. Consequently, roughly half of MCB tumors cannot be diagnosed by FNA. Pathologic tissue diagnosis is therefor essential to distinguish MCB from other breast cancers in order to institute proper and prompt treatment. This is achieved using immunohistochemistry with a cytokeratin panel to distinguish such cases from phyllodes tumors, primary sarcomas, and fibromatoses.The prognosis of MCB can vary between different sub-classifications, which, given the heterogeneity of classification systems, makes assigning prognoses difficult. However, the prognosis for MCB is generally poor. Predictors associated with worse prognosis of MCB include age younger than 39 years at presentation, tumor invasion of the skin, and squamous cell carcinoma spread to the lymph nodes. The 5-year survival rate for MCB varies by classification, and ranges from 49% in the most deadly classifications to 64%.Despite the range of classifications of MCB, treatment options are standard with other breast cancers. If the tumor is diagnosed early, breast-saving surgery could be an option, although this is relatively uncommon. In non-metastatic MCB, the most common treatment is mastectomy. If the tumor is metastatic, surgery is no longer a viable option, and treatment generally defaults to aggressive chemotherapy. Because MCB tumors are typically triple-negative, hormone therapy is not usually an option for treatment. This is directly related to its relatively poor prognosis.An example of current MCB-related research is a publication from Martin et al. in 2017 titled 'MMTV-cre;Ccn6 knockout mice develop tumors recapitulating human metaplastic breast carcinomas.' The group down-regulated Ccn6, which is a secreted matricellular protein of the CCN (CYR61/CTGF/NOV) family, in an MMTV-Cre mouse model. The mice developed invasive high grade mammary carcinomas with significant evidence of EMT, which were histologically similar to human metaplastic breast carcinomas. The group’s results suggest a causal role for Ccn6 deletion in the pathogenesis of metaplastic carcinomas, and showed histological and molecular similarities with human metaplastic breast carcinoma. They propose their results as a platform to study new targets in the diagnosis and treatment of human metaplastic carcinomas, and a new disease-relevant model in which to test novel treatment strategies.  This article incorporates public domain material from the U.S. National Cancer Institute document 'Dictionary of Cancer Terms'.

[ "Breast cancer", "Carcinoma", "Metaplastic Breast Carcinoma", "matrix producing carcinoma", "Fibromatosis-like metaplastic carcinoma" ]
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