Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0268596 (EMA)
 2,520 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cervicovaginal smears from 2 women with postirradiation dysplasia, 4 women with postirradiation squamous cell carcinoma of the cervix, 30 women with irradiation atypia and 5 healthy, nonirradiated women were stained immunohistochemically with six keratin antibodies. For four of the antibodies--CK19 (BA17), EMA, PKK-1 and CAM 5.2--squamous cells showing irradiation atypia, postirradiation dysplasia or postirradiation squamous cell carcinoma were more likely to stain positively than were nonirradiated squamous cells. For three of the antibodies in which multiple squamous cells stained positively, the proportion of squamous cells showing postirradiation dysplasia or postirradiation squamous cell carcinoma staining strongly was equal to or greater than the corresponding overall proportion for squamous cells showing irradiation atypia. This was statistically significant with only one antibody, PKK-1. No statistically significant differences were seen in staining of irradiated and nonirradiated squamous cells by MAK-6 and AE1:AE3. The data show that some keratin antigens are more often expressed in the irradiated groups and that there may be differences in the degree of antigen expression between squamous cells showing postirradiation dysplasia or postirradiation squamous cell carcinoma and squamous cells showing irradiation atypia.
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PMID:Immunoperoxidase staining of cervicovaginal smears after radiotherapy. 158 Jan 12

Gliosarcomas are mixed tumors with malignant glial and mesenchymal elements. The number of GFAP-positive tumor cells decreases with the increase of sarcomatous components, until whole areas may be GFAP negative. These distinct differentiations may, however, lead to false interpretations in small tissue samples. In this connection, it is of interest that, according to other reports, glial tumors may be positive for different anti-keratin antibodies and this prompted us to undertake a systematic investigation of the immunoreactivity of gliosarcomas using a panel of well-characterized monoclonal antibodies against cytokeratins (KL1, AE 1/3, Lu-5, CK-19, CK MNF 116 and Ma-903). These cases were further studied with the anti-epithelial non-cytokeratin antibodies EMA, HEA 125, Ber-EP4, CEA as well as the melanoma-antibody HMB-45, Leu-M1, GFAP and vimentin. As screening study we examined 20 cerebral metastatic carcinomas, 21 malignant gliomas (including 6 gliosarcomas) and 3 metastatic melanomas with the monoclonal antibodies KL1 and HMB-45. All cerebral metastatic carcinomas and 4/6 gliosarcomas were positive for KL1, whereas all melanomas, 2 metastatic carcinomas and 3 gliosarcomas showed an immunostaining with HMB-45. All gliosarcomas were positive with at least one of the tested anti-cytokeratin antibodies. The gliosarcomas did not show an immunoreaction in any of the cases when CEA, HEA 125, Ber-EP4, EMA or Leu M1 were applied. In our opinion, the monoclonal antibodies HEA 125 and Ber-EP4 could obviously be helpful in differentiating gliosarcomas from metastatic carcinomas.
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PMID:Epithelial and melanoma antigens in gliosarcoma. An immunohistochemical study. 159 90

Applying immunohistochemical procedures for the detection of eight different cytokeratin (CK) polypeptides and other differentiation markers, we compared the staining patterns of normal cutaneous structures with those of benign adnexal tumors (n = 65). Syringomas exhibited a marker pattern highly reminiscent of that seen in normal dermal eccrine ducts (EMA in peripheral cells, CK 10 in intermediate cells, and CK 6, CK 19, and CEA in luminal cells). Nodular hidradenomas exhibited complex patterns suggesting relationship between tumor cells, including clear cells, and normal secretory coil cells (CK 7, CK 8, CK 19, and EMA); however, dermal-duct and epidermoid differentiation were also detectable. In both cylindromas and spiradenomas, zonal staining patterns were apparent: modified myoepithelial cells were positive for smooth-muscle-type actin, while the luminal cells mainly expressed ductal markers (CK 6 and CK 19) and, less prominently, secretory-coil markers including CK 7. Eccrine poromas exhibited a widespread reaction for CK 5/6 and EMA, analogous to peripheral dermal duct cells, but focal maturation toward inner-ductal and secretory-coil cells was also demonstrable. The staining pattern observed in trichoepitheliomas resembled that of the outer but not the inner root sheath. In conclusion, the detailed marker profiles obtained in the present study have broadened our understanding of the differentiation and nature of these highly singular tumor types.
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PMID:Epithelial markers and differentiation in adnexal neoplasms of the skin: an immunohistochemical study including individual cytokeratins. 883 71

A precordial tumor of the pericardium was radiologically diagnosed as the cause of an untypical clinical picture of heart disease in a 41-year-old soldier. As the patient had an increased asbestos exposure due to his profession, he was admitted to operation under the tentative diagnosis of a pericardial mesothelioma and the question of an occupational disease (BK 4105). Microscopic and immunohistochemical findings are compatible with the diagnosis of a synovial sarcoma of the pericardium. The present immunohistochemical marker spectrum allowed a reliable differentiation between synovial sarcoma and pericardial mesothelioma, which is more frequent than synovial sarcoma. The epithelioid component was determined using the following antibodies: MNF 116, CK 19, CK 7, EMA and Ber EP-4 were positive while Factor VIII, Calretinin, S100, Vimentin, CEA, CD 31, bcl-2 and HBA-71 were negative. The sarcomatous component was determined with antibodies to Vimentin, bcl-2 and HBA-71 which were positive, and to MNF 116, CK 19, CK 7, Factor VIII, Calretinin, S100, EMA, CEA, Ber EP-4 and CD 31 which were negative. Synovial sarcomas of the pericardium in the lower anterior mediastinum or the myocardium are exceedingly rare. A causal relationship between tumor formation and an increased asbestos exposure--similar to the epidemiologically based experiences with pericardial mesothelioma--is not likely. Primary extrapericardial synovial sarcoma could be excluded.
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PMID:[Synovial sarcoma of the pericardium]. 988 9

Epithelioid sarcoma (ES) is a distinctive soft tissue neoplasm with a predilection for the distal extremities of young adults. This tumor typically contains nodular aggregates of epithelioid and spindle cells with zonal necrosis. The neoplastic cells are generally reported to coexpress keratin and vimentin and are often stated to be positive for CD34. However, there is no large series with extensive immunohistochemical data, there are few data with regard to expression of different keratin subtypes, and there are no large series discussing the epithelioid sarcoma subtypes. In the current study, we immunohistochemically evaluated 88 typical and 24 variant (8 angiomatoid, 9 large cell/rhabdoid, and 7 "fibroma-like") ESs. Nearly all ESs with typical histology (94%) were positive for keratin 8 (K8), whereas 72% were positive for K19, 48% for intermediate- and high-molecular-weight keratins (34betaEH12), and 22% for K7; reactivity with the latter two antibodies was usually seen in only a minority of tumor cells. Vimentin reactivity was present in all cases, EMA in 96% of cases and muscle-specific actin and CD34 were noted in 41% and 52% of the cases, respectively. A few ESs (7%) showed focal cytoplasmic CD31 reactivity, but none exhibited a distinctive membrane staining pattern, and examples tested for FVIIIRAg were negative. The angiomatoid, fibroma-like, and large cell-rhabdoid ES variants had immunohistochemical profiles similar to the classic cases, supporting a common pathogenesis. Although not consistently expressed in ES, the presence of CD34 is helpful in distinguishing this entity from primary and metastatic carcinomas and other sarcomas such as malignant rhabdoid tumor.
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PMID:Epithelioid sarcoma: an immunohistochemical analysis of 112 classical and variant cases and a discussion of the differential diagnosis. 1082 2

Thyroid anaplastic (undifferentiated) carcinomas (TACs) comprise a morphologically heterogeneous group of tumors, which can arise in the background of differentiated papillary or follicular carcinoma. The thyroid epithelial differentiation varies in these tumors and has not been completely characterized. In this study, we immunohistochemically analyzed different variants TACs from 35 patients by using antibodies specific to 9 different keratin polypeptides, epithelial membrane antigen, thyroid transcription factor I (TTF-1), and thyroglobulin. These tumors were histologically divided into 3 categories: squamoid-cohesive (SC, 13 tumors), spindle cell sarcomatous (SS, 8 cases) and intermediate group, including tumors with giant cells and solid epithelioid components (GC, 18 tumors); 4 tumors had 2 components. The patients ages ranged from 40 to 89 years, with a mean age in all groups of 70 years. TTF-1 was present in only 2 of 9 of the SC tumors, and absent in all other TACs, but was present in entrapped differentiated components. Thyroglobulin was absent in all but 1 case. A complex keratin (K) pattern of stratified epithelia was typically seen in the SC tumors with extensive K7, K8, K17, K18, and K19, and variable K13 and K14 expression; EMA was also present. K16 was limited to squamous pearls in 1 tumor, and K10 was absent. The GC carcinomas typically had K8 and K18, whereas the expression of K7 was variable and that of K14, K17, and K19 sporadic; EMA was variably present in half of the cases. The keratins in spindle cell sarcomatous tumors were usually limited to K7, K8, and K18, often in limited numbers of cells. EMA was present in 1 case only. These results indicate a complex pattern of keratins in squamoid and giant cell TACs, similar to papillary carcinoma and suggesting the possibility of relationship. There was a progressive loss of epithelial differentiation and keratins in sarcomatoid TACs. Loss of TTF-1 is a nearly uniform feature of TAC and disallows the use of this marker to pinpoint a thyroid origin of these tumors.
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PMID:Variable expression of keratins and nearly uniform lack of thyroid transcription factor 1 in thyroid anaplastic carcinoma. 1101 83

Adenocarcinomas of the uterine cervix show a wide range of morphological features, and can be confused with endometrial adenocarcinoma in biopsy or curetting specimens. The objective of this study was to use tissue microarray technology to evaluate the immunoprofile of a large set of uterine adenocarcinomas with an extended panel of antibodies, comparing the profile of primary cervical and endometrial adenocarcinomas. A tissue microarray was constructed using paraffin-embedded, formalin-fixed tissues from 141 hysterectomy specimens. Duplicate 0.6-mm cores were obtained from 57 cervical adenocarcinomas (16 in situ and 41 invasive) and 84 endometrial adenocarcinomas. Tissue array sections were immunostained with 21 commercially available antibodies [B72.3, CD 99, carcinoembryonic antigen (CEA), c-kit, pancytokeratin, CK 5/6, CK 7, CK8/18, CK19, CK 20, CK 22, EMA, estrogen receptor (ER), KP-1, melan-A, p53, PLAP, S-100, synaptophysin, TTF-1, and vimentin] utilizing the avidin-biotin (ABC) technique. Hierarchical clustering analysis of the tumors was done based on the immunostaining results. Only ER ( P<0.001), CEA ( P=0.04), vimentin ( P<0.001), and CK 8/18 ( P=0.002) showed a significantly different frequency of positivity in endometrial relative to cervical adenocarcinomas. ER, vimentin, and CK 8/18 were more likely to be expressed in endometrial adenocarcinomas, while cervical adenocarcinomas more frequently expressed CEA. We were able to identify immunoprofiles that were highly specific for endocervical adenocarcinoma (ER(-), vimentin(-), CK 8/18(-), CEA(+)) or endometrial adenocarcinoma (ER(+), vimentin(+), CK 8/18(+), CEA(-)), but most tumors showed an intermediate, non-specific immunophenotype. Hierarchical clustering analysis was useful in the interpretation of these intermediate immunophenotypes. Papillary serous adenocarcinoma of the endometrium was less likely to express vimentin ( P=0.002) than endometrioid carcinoma of the endometrium.
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PMID:Immunoprofile of cervical and endometrial adenocarcinomas using a tissue microarray. 1264 18

We report the findings from an aspiration biopsy and resection of a chordoma-like tumorous mass in the wall of the thorax of a 36-yr-old man with immunohistochemical, ultrastructural, and cytogenetic studies. The 4-cm oval tumor was an incidental finding on physical examination, and no other lesions were identified after comprehensive radiologic studies. The aspirate was composed of sheets and nests of cells with distinct borders in a myxoid and fibrillary extracellular matrix. The neoplastic cells were uniform and round or polygonal with abundant pale blue vacuolated cytoplasm and small round, central or eccentric nuclei. On electron microscopy, mitochondrial rough endoplasmic reticulum complexes were seen in neoplastic cells. These features were similar to those of a conventional chordoma. However, the cytogenetic pattern, 43, XY ,-1, -2, der (5)t(1p;5q), -6, add(8p) ,add(10q), was not typical. In addition, the neoplastic cells were positive for vimentin, S-100, AE1/AE3, CAM 5.2, and CK 19; were focally positive for EMA and smooth muscle actin; and were negative for cytokeratin 1 and 10 (34 beta E12), CK 7, CK 8 (35H 11B), CK 17, and CK 20. The cytogenetic and immunohistochemical patterns were different from conventional chordoma and its peripheral counterpart, chordoma periphericum, suggesting the diagnosis of parachordoma. To the best of our knowledge, this is the first report of fine-needle aspiration of this newly defined and rare entity.
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PMID:Parachordoma or chordoma periphericum? Case report of a tumor of the thoracic wall. 1282 10

Angiosarcoma occurs very rarely in the intestinal tract as either a primary or metastatic malignancy and can present great diagnostic difficulty, especially when it displays epithelioid cytomorphology. Since only isolated case reports have been published, the purpose of this study is to more fully delineate the histopathological and clinical features from a series of 8 angiosarcomas involving the gastrointestinal tract. There were 5 male and 3 female patients whose ages ranged from 25-85 years (median 57). Presenting symptoms included intestinal bleeding, anemia and pain. Five cases involved the small bowel and 3 involved the colon/rectum. Four cases were primary to the intestinal tract, 2 patients initially presented with secondary involvement of the large bowel from occult retroperitoneal primaries, 1 patient presented with disseminated disease including small bowel involvement, and 1 case was metastatic from a breast primary. Seven cases were composed predominantly of sheets of malignant appearing epithelioid cells with subtle areas forming cleft-like spaces suggestive of vascular differentiation. Immunohistochemical studies revealed the lesional cells to be immunoreactive for CD31 (8/8), CD34 (8/8), Factor VIII (8/8), cytokeratins AE1/AE3 (7/8), cytokeratin 7 (2/8), Cam5.2/cytokeratin 8 (5/8), and cytokeratin 19 (5/8). Cytokeratin 20 was negative in all eight cases, which contrasts sharply with the characteristic positivity for cytokeratin 20 in virtually all intestinal carcinomas. One case was weakly and focally positive for EMA and all cases were negative for S-100 protein. Cytokeratin staining was variable and ranged from focal to extensive. Follow-up was available in eight cases and ranged from 1-33 months (median 12.5). Five patients died of disease, between 1 and 33 months (median 6) after diagnosis. One recently diagnosed patient is alive with disease 18 months after diagnosis, and one patient is free of disease 27 months after original diagnosis. Angiosarcomas of the gastrointestinal tract commonly display epithelioid cytomorphology, may be diffusely and strongly positive for cytokeratins and only show subtle signs of vascular differentiation, creating potential diagnostic confusion with primary or metastatic carcinoma. Given the clinically aggressive behavior of angiosarcoma, proper classification and treatment is important. Immunohistochemistry with vascular markers, CK20, and S-100 protein may be helpful in differentiating angiosarcoma from carcinoma and melanoma.
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PMID:Angiosarcoma involving the gastrointestinal tract: a series of primary and metastatic cases. 1510 92

The immunohistochemistry study made on 30 cases of salivary glands pleomorphic adenomas aims to establish the antigen profile of luminal epithelial neoplastic component proliferates into these tumors. We ascertain that luminal epithelial neoplastic cell were almost exclusively positive to antibody peculiar to epithelial differentiation (AE1/AE3, MNF 116, CK 8, CK 19, CK20, EMA) and occasional to S-100 protein and negative to vimentin, alpha-smooth muscle actin, calponin, Glial Fibrillary Acidic Protein (GFAP). This kind of immunoreactivity was similar to ductal cells from striated channels of salivary glands, suggesting the origin of such pleomorphic adenomas from this place.
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PMID:The immunohistochemical profile of luminal epithelial neoplastic component from pleomorphic adenomas of salivary glands. 1584 84


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