Characterization of cell types in human breast tumor primary cultures

Primary cultures of cells from breast carcinomas were attempted in 74 cases. Growth was observed in 46 cases. Using immunochemical demonstration of keratin proteins (KER), epithelial membrane antigen (EMA) and carcinoembryonic antigen (CEA), three morphologically distinct cell populations were characterized and described. Two cell types (E- and E'-cells) were identified as epithelial by their positive staining for KER and EMA. The third type (F cells) displayed a negative staining for these two epithelial markers; they were considered as stromal cells (fibroblasts). More than 50% of the cultures consisted of pure epithelial cells. Positive CEA staining was observed only in KER- and EMA-positive cells. Out of the 30 cultures, 15 displayed positive staining for CEA. In 7 of these, 30-50% of cells displayed positive, diffuse staining for CEA. The other 8 cultures consisted of more than 50% CEA-positive cells. Strong and homogeneous positivity was restricted to the E-cells, while in the same cultures, E'-cells displayed heterogeneous and diffuse staining. Efficiency and value of this cell culture system are discussed, in comparison with other human breast tumor cell (HBTC) culture techniques. Identification of growing cells and cellular composition of primary cultures are emphasized.     

The value of the immunoperoxidase slide assay in the diagnosis of malignant pleural effusions in breast cancer

Whether immunocytochemical studies of malignant pleural effusions due to breast cancer would increase the diagnostic yield as compared with conventional effusion cytology was examined in 30 cases with biopsy-proven metastatic spread to the pleura. Conventional cytology was performed on air-dried smears as well as on cytocentrifuge preparations stained with the May-Grünwald-Giemsa stain. Immunocytochemistry was performed with monoclonal antibodies against carcinoembryonic antigen (CEA), epithelial membrane antigen (EMA) and human leukocyte antigen (HLA) and the peroxidase-antiperoxidase technique on glass slides after Ficoll-Hypaque centrifugation. By conventional cytology, 13 cases (43%) were positive for malignant cells, 6 cases (20%) were suspicious, and 11 cases (37%) were negative. In marked contrast, all 30 cases were immunocytologically positive for malignancy. Tumor cells in all cases demonstrated a positive reaction for EMA. Some mesothelial cells were also positive for EMA, but their reaction pattern was clearly distinguishable from that of the tumor cells. Twenty-one cases (70%) also showed CEA-positive tumor cells; mesothelial cells never reacted with CEA. Some tumor cells showed a loss of HLA expression. In conclusion, this immunocytologic method can be recommended as a routine procedure for greatly increasing the diagnostic yield of cytology in pleural effusions due to breast cancer.     

Distinction between carcinoma cells and mesothelial cells in serous effusions. Usefulness of immunohistochemistry

The usefulness of an immunoperoxidase battery to distinguish carcinomatous from benign effusions was examined. Cell block sections from 90 previously diagnosed effusions were stained with antibodies to Leu-M1, B72.3, epithelial membrane antigen (EMA), carcinoembryonic antigen (CEA) and vimentin. The 90 cases comprised 69 carcinomas (23 mammary, 16 ovarian, 10 pulmonary, 7 gastrointestinal [GI] and 13 others), 2 malignant mesotheliomas and 19 cases with reactive mesothelial cells only. EMA and vimentin were the most useful markers for distinguishing carcinoma cells from reactive mesothelial cells. EMA reacted with 86% of the carcinomas while vimentin reacted with 90% of the reactive cases. Leu-M1, B72.3 and CEA, although generally less sensitive than EMA, were also helpful in this regard. Additionally, the use of Leu-M1 and CEA together may help to distinguish pulmonary from GI carcinomas.     

CEA, ZGM and EMA localization in cells of pleural and peritoneal effusion: a preliminary study

Carcinoembryonic antigen (CEA), the zinc glycinate marker (ZGM) and epithelial membrane antigen (EMA) have been described as epithelial or tumour markers of varying specificity. These antigens were studied by immunoperoxidase localization in selected cell blocks of 62 pleural or peritoneal effusions and compared to cytological findings and review of the clinical records. By cytological criteria, 25 of the cell blocks were positive for malignancy, 30 negative, and 7 inconclusive. CEA, ZGM, and EMA by immunoperoxidase staining were localized on the cell surface and often in the cytoplasm of malignant cells, in 11/25 (44 per cent), 17/25 (68 per cent) and 22/25 (88 per cent) of the positive cell blocks respectively. Ten (40 per cent) of these cases were positive for all three antigens, 7 (28 per cent) for two, and 6 (24 per cent) for one. Of the 7 cases which were inconclusive on routine cytological reporting, 5 were positive for at least one marker. In 3 of the 5 a diagnosis of malignancy was confirmed, and in the other two was strongly suspected as malignant on clinical grounds. Macrophages were sometimes positive for one or more markers (but showed cytoplasmic staining only) and mesothelial cells in some cases stained positively for EMA but were always negative for CEA and ZGM. Localization of the 3 antigens in cells of malignant effusions was compared with their localization in the primary tumours in 9 cases. Localization corresponded for CEA in 7 of 9 cases, for EMA in 8 of 8 an for ZGM in only 2 of 9. Effusion fluid levels for CEA were compared with the cytological and immunocytochemical findings in 30 cases. Mucin stains performed on the cell blocks were also compared with the immunoperoxidase findings.     

Immunophenotyping of Mesothelial Cells and Carcinoma Cells With Monoclonal Antibodies to Cytokeratins, Vimentin, Cea and Ema Improves the Cytodiagnosis of Serous Effusions

This paper presents an immunocytochemical study performed on cytocentrifuged deposits from 109 peritoneal and pleural effusions including 20 transudates, 43 malignant metastatic effusions and 46 effusions containing atypical cells, unidentifiable as reactive mesothelial or malignant epithelial cells on the classical morphological criteria. A panel of four monoclonal antibodies (MAb) was used, including KL1 directed to cytokeratins (KER), V9 to vimentin (VIM), NEO 723 to carcinoembryonic antigen (CEA) and E29 to epithelial membrane antigen (EMA). In most transudates the reactive mesothelial cells coexpressed VIM and KER with a ring-like pattern for the latter proteins. In contrast, they were unreactive to anti-CEA and weakly and inconsistently reactive to anti-EMA. In malignant effusions, most carcinoma cells coexpressed EMA, CEA and KER with a predominant diffuse cytoplasmic pattern for the latter. Only a few malignant epithelial cells from five metastatic adenocarcinomas weakly expressed VIM. When used on the 46 effusions with unidentifiable cells, the panel of MAb allowed reactive mesothelial cells and malignant epithelial cells to be distinguished from each other in 39 of 46 cases (85%).     

Malignant ascites of serous papillary ovarian adenocarcinoma. An immunocytochemical study of the tumor cells

In 17 malignant peritoneal effusions due to papillary serous adenocarcinoma of the ovary, the reaction patterns of the tumor cells to monoclonal antibodies (MAbs) against surface antigens were studied and compared with the reaction patterns of mesothelial cells in the same effusions. The following surface markers were used with the adhesive slide method: epithelial membrane antigen (EMA), human epithelium-specific cell surface antigen (HEA-125), human endothelial antigen (BMA-120), carcinoembryonic antigen (CEA 3-13), an antibody against natural killer cells and cytotoxic cells (BMA-070), granulocyte antigen (Leu M1) and leukocyte antigen of class I (HLA-1). In all cases, from 30% to 95% of the tumor cells reacted with EMA and HEA-125. Tumor cells showed a positive staining with CEA 3-13 in only five cases. In all cases, from 75% to 95% of the tumor cells reacted positively with BMA-120. The reactivity of a few mesothelial cells with EMA and of all mesothelial cells with BMA-120 did not interfere with the identification of positive tumor cells since the reaction patterns were different. Interestingly, our study demonstrated that BMA-070, an MAb identifying natural killer cells and cytotoxic cells, is also a most useful tumor marker. The same was found to be true for Leu M1, an MAb originally thought to react only with granulocytes. The tumor cells showed a partial or total loss of the expression of HLA-1 reactivity. Since all cases were immunocytochemically positive for tumor cells while conventional cytology was positive in only 13 of the cases, the immunocytochemical analysis of malignant peritoneal effusions due to papillary serous adenocarcinoma of the ovary seems able to improve the cytologic diagnosis of the fluids.     

The value of epithelial membrane antigen in the diagnosis of ovarian tumors.

The value of epithelial membrane antigen (EMA) in the diagnosis of ovarian tumors was investigated using an indirect immunoperoxidase staining technique on 91 histologic sections (88 tumors and 3 normal tissues) and 39 ascitic fluid smears (28 from patients with epithelial ovarian tumors and 11 from cases of myoma uteri). The rate of positive EMA staining was highest in malignant tumors (89.2%), second highest in tumors of low malignant potential (33.3%) and lowest in benign tumors (25.0%); normal ovarian tissues were negative for EMA. Of the malignant tumors, all 48 serous cystadenocarcinomas (100%) and 18 of 26 mucinous cystadenocarcinomas (69.2%) stained positively for EMA. In serous cystadenocarcinomas, the EMA staining was mainly localized on the luminal membrane of cells in well-differentiated tumors, but appeared on the entire cell surface and cytoplasm of cells in poorly differentiated tumors. The results of EMA staining on ascitic fluid smears were almost the same as the results for the histologic sections. The intensity and the localization of EMA staining were related to the grade of malignancy in these ovarian tumors. In comparison with staining for other antigens (carcinoembryonic antigen, CA-125 and human keratin protein), EMA was found to be one of the most sensitive markers for the diagnosis of ovarian cancer.     

Identification of carcinoma cells in ascitic and pleural fluid. Comparison of four panepithelial antigens with carcinoembryonic antigen.

The cell membrane antigens epithelial membrane antigen (EMA), epithelial glycoprotein 34, (egp34), BW-495 and tumor-associated antigen 72 (TAG-72) are present in most benign and malignant epithelial cells and can be demonstrated with the help of monoclonal antibodies. In a study on the identification of carcinoma cells in samples of ascitic and pleural fluid involving 170 patients, we compared the value of immunocytochemical labeling of these antigens with that of immunocytochemical demonstration of carcinoembryonic antigen (CEA). Antibodies to EMA and egp34 occasionally also reacted with reactively proliferating mesothelial cells in benign conditions and thus appear to be inappropriate for diagnostic use. Cells positive for BW-495, TAG-72 and CEA, however, have never been found in benign conditions; the specificity of these antigens thus permits their use in diagnosis. Antigen-expressing cells were found in 85% (BW-495), 62% (TAG-72) and 60% (CEA) of cytologically positive samples from carcinoma patients. Similarly, positive reactions for BW-495, TAG-72 and CEA were observed in, respectively, 36%, 29% and 34% of cytologically negative or suspicious samples. BW-495 thus appears to be a suitable marker for the demonstration of carcinoma cells in samples of pleural and ascitic fluid and to have a higher degree of sensitivity than does either TAG-72 or CEA.     

The human chromophobe cell renal carcinoma: its probable relation to intercalated cells of the collecting duct

In the present study we have examined ten cases of the chromophobe type renal cell carcinoma. This type of tumor is distinguished from the other carcinomas of the kidney with light cytoplasm (formerly called "hypernephroid") by (a) a positive Hale's iron colloid stain of the cytoplasm, (b) the occurrence of numerous invaginated vesicles within the cytoplasm that resemble the invaginated vesicles of intercalated cells of the collecting duct system, and (c) a positive immunoreaction of both the plasma membrane and the cytoplasm with antibodies to the epithelial membrane antigen (EMA) and carbonic anhydrase C (CAC), respectively. Unlike oncocytomas, which also express CAC and EMA, the chromophobe renal cell carcinoma does not express the erythrocyte anion exchanger band 3. These findings strongly indicate that chromophobe renal cell carcinomas as well as oncocytomas of the kidney are histogenetically related to the two populations of intercalated cells of the collecting duct system. Thus, both tumors represent examples of renal tumors which disprove the broadly accepted hypothesis that all epithelial tumors of the kidney are histogenetically related to the proximal tubule.     

Tumor marker studies of cervical smears. Potential for automation

The distribution of three tumor markers, epithelial membrane antigen (EMA), carcinoembryonic antigen (CEA) and prekeratin (PK) was studied in exfoliated epithelial cells in cervical smears using an immunoalkaline phosphatase staining technique to demonstrate the antigens. EMA was expressed by abnormal cells in a consistent and reproducible fashion whereas the other two markers were variably expressed by both normal and abnormal cells. Our results suggest that immunocytochemical staining for EMA could be of value not only for the diagnosis of cervical intraepithelial neoplasia but also for the automated screening of cervical smears.     

Usefulness of ploidy, AgNOR and immunocytochemistry for differentiating benign and malignant cells in serous effusions

OBJECTIVE: The objective of this study was to establish the value of different markers in differentiating reactive mesothelial cells from metastatic adenocarcinomatous cells in serous effusions (SE). METHODS: Forty-five SE were processed for morphological examination (Papanicolaou stain), assessment of ploidy, AgNOR counting and immunocytochemical assay of carcinoembryonic antigen (CEA), epithelial membrane antigens (EMA), Ber-EP4 and Leu-M1. Ploidy was established in an image-analyser in smears stained by the Feulgen stain method. AgNOR dots were counted in the smears stained with the silver nitrate assay for non-histone proteins present in the nucleolar organizer region. CEA, EMA, Ber-EP4 and Leu-M1 were evaluated by immunocytochemistry using the streptavidin-biotin complex method. RESULTS: All the smears with positive cytology were aneuploid. Three false negatives by morphological studies were aneuploid, with AgNOR values in two of them corresponding to the neoplastic group. CEA and Leu-M1 showed a low specificity; EMA and Ber-EP4 showed moderate sensitivity. CONCLUSIONS: The assessment of ploidy and the study of AgNOR were better methods than immunocytochemistry for distinguishing between reactive mesothelial cells and adenocarcinomatous cells in serous fluid.     

Morpho-functional changes in normal cyclic endometrium

Eight cases of normal endometrium in the early proliferative phase and an equal number of cases in the late secretive phase were stained histochemically for acidic mucosubstances and immunocytochemically for epithelial membrane antigen (EMA), carcinoembryogenetic antigen (CEA) and Gross Cyst Disease Fluid Protein -15 (GCDFP-15) production. Alcian blue positive material was observed in both phases of the cycle, although the distribution was different. Sulphated mucosubstances were only present in the secretive phase. No CEA nor GCDFP-15 immunoreactive material was detected. EMA positive staining was observed in all cases, but the distribution varied according to the two different phases of the cycle.     

Cytologic study of the tissue repair cells of the uterine cervix. With special reference to their origin.

In order to characterize tissue repair cells (TR) of the uterine cervix and clarify their origin, exfoliated cells obtained after laser conization for early cervical lesions were examined. One specimen was first examined by Papanicolaou staining and then examined for epithelial membrane antigen (EMA) and vimentin by immunocytochemical staining, using a restaining method. The other specimen was observed by phosphotungstic acid-hematoxylin (PTAH) staining. Morphologic findings on TR were investigated together with the histologic findings on the wound healing process. TR were classified morphologically into three groups: stromal (STR), epithelial (ETR) and of unknown origin (UTR). Validity of this classification was confirmed by the findings of immunocytochemical staining with EMA and vimentin. These cells appeared one to eight weeks after laser conization. TR with relatively large nuclei, or atypical TR (ATR), appeared when each type of TR was most plentiful, at two to five weeks. Regarding the origins of each TR, cytologic and histologic findings could be considered to offer evidence that ETR originated with hyperplasia of immature cells of the squamous epithelium or reserve cells below the columnar epithelium. The presence of myofibrils in cytoplasm, demonstrated by PTAH staining for STR and some UTR, strongly suggested the possibility that these cells were myofibroblasts in granulation tissue.     

Immunofluorescent staining of metastatic carcinoma cells in serous fluid with carcinoembryonic antibody, epithelial membrane antibody, AUA-1 and BER-EP4

Using an indirect immunofluorescence technique, we assessed the accuracy and clinical usefulness of a panel of monoclonal and polyclonal antibodies. the panel consisted of carcinoembryonic antibody (CEA) and epithelial membrane antibody (EMA), AUA-1, and Ber-EP4 conjugated with fluorescein isothiocyanate. Twenty-six specimens from pleural, peritoneal or pericardial effusions known to contain carcinoma cells (adenocarcinoma or large cell anaplastic carcinoma) and 16 specimens without carcinoma were first examined. the sensitivity and specificity for each of the antibodies were as follows: CEA, 71% and 75%; EMA, 96% and 81%; AUA-1, 80% and 100%; and Ber-EP4, 85% and 100%, respectively. the panel of antibodies was then applied to a group of 14 'problematic' fluids. These had been identified as causing dilemmas in interpretation, either because the cells in the fluids were of equivocal appearance on light microscopy, or the cytological diagnosis was different from that expected in the light of the clinical condition of the patient. Insufficient cellular material was present in one specimen. In five (39%) of the cases the immunochemical staining supported the light microscopic diagnosis. In four (30%) cases, however, the results indicated that the original light microscopic report was incorrect. Two of these were examples of large cell carcinoma of the lung, in which false negative reports had been issued on pleural fluids. the other two were cases of benign ovarian tumours in which a false positive report had been issued. the immunostaining also clarified the final diagnosis in the three patients (23%) on whom 'suspicious' cytological reports had previously been issued. the remaining case, fluid from a patient with a high grade mixed Mullerian tumour of the ovary, was unresolved. We conclude that immunofluorescent staining by AUA-1, EMA and Ber-EP4 is an aid in the cytological interpretation of serous fluids. CEA is much less helpful.     

Immunoperoxidase staining of fine needle aspiration specimens previously stained by the Papanicolaou technique

The use of immunoperoxidase techniques was investigated in 21 fine needle aspiration (FNA) cytology smears that had been previously stained by the Papanicolaou technique. The retrospectively selected slides were destained before applying the immunostain, utilizing antisera to calcitonin, prostatic acid phosphatase (PrAP), prostate-specific antigen (PSA), alpha-lactalbumin (AL), S-100 protein (S-100), carcinoembryonic antigen (CEA), common leukocyte antigen (LA), epithelial membrane antigen (EMA) and alpha-fetoprotein (AFP). Positive results were obtained with six of nine small-cell carcinomas of the lung stained with EMA, all three colonic carcinomas stained with CEA, one of two prostatic carcinomas stained with PSA and PrAP, one of two lymphomas stained with LA and the one medullary thyroid carcinoma stained with calcitonin. Negative staining results were observed in the one melanoma stained with S-100, the two breast carcinomas stained with AL and the one hepatocellular carcinoma stained with AFP. These results indicate that immunostaining can be a helpful diagnostic tool in diagnosing some fine needle aspirates using smears previously stained with the Papanicolaou stain.     

Combined carcinoembryonic antigen and cytopathologic examination in ascites

OBJECTIVE: To investigate use of the combined carcinoembryonic antigen (CEA) test and cytopathologic examination to improve the diagnosis of neoplastic vs. nonneoplastic ascites. STUDY DESIGN: The tests were performed prospectively on 130 patients with ascites whose effusions were submitted for cytologic examination. RESULTS: Sixty-seven patients had epithelial tumors, and the cytologic examination was positive in 39 (58.2%). The CEA level was > or = 11.0 ng/mL in 36 patients (53.73%). CEA was helpful in the diagnosis in 18 cases, increasing to 57 (85.07%) the number of positive diagnoses. Eight samples of nonepithelial tumors had low levels of CEA. In 55 patients with nonneoplasic ascites the cytopathologic examination was negative, but the CEA assay was > 11.0 ng/mL in 3 patients. CONCLUSION: The cytopathologic examination should be performed in all cases, and the CEA assay should be done in suspected cases of epithelial neoplasia in which the cytologic examination was negative, there was uncertainty about the histologic type of neoplasia, or a diagnosis of nonepithelial neoplasia was made. When ascitic leukocytosis or hepatic failure is present, one should be cautious in interpreting the CEA assay because false positivity can occur.     

Aberrant expression of a fetal glycoprotein 68 in hepatocellular carcinoma: a comparative study on the expression of alpha-fetoprotein and carcinoembryonic antigen

A rat IgG2a monoclonal antibody against a stage-specific fetal glycoprotein with a molecular mass of 68 kDa (FGP68) was produced and applied to paraffin sections. This monoclonal antibody was used to compare the expression of FGP68 with that of both alpha-fetoprotein (AFP) and carcinoembryonic antigen (CEA) in 75 hepatocellular carcinomas (HCCs). Seventy-five primary HCCs from patients aged 36 to 77 years were examined. Formalin-fixed, paraffin-embedded tissue sections were used for immunohistochemical analyses. Histologically, 6 cases of HCC were classified as type I according to the Edmondson and Steiner criteria, 57 cases as type II, and 12 cases as type III. The cancer tissues showed positive reactions with the antibody against FGP68. Approximately one-third of the HCCs (26/75) contained tumor cells that expressed FGP68 -(21/57 for Edmondson and Steiner type II; 4/12 for type III; and 1/6 for type I) - and positive immunoreactivity was observed in the cytoplasm of the cancer cells. Twenty-five of the 75 HCCs had tumor cells that expressed AFP and there was a significant correlation between FGP68 expression and AFP expression. Twenty-three of the 75 HCCs had tumor cells that expressed CEA and there was no significant correlation between FGP68 expression and CEA expression. No positive reactions for FGP68, AFP and CEA were observed in samples of non-neoplastic liver tissues. Based on the possibility that stage-specific FGP68 plays an important role in liver embryogenesis, FGP68-expressing tumor cells might ontogenetically revert to more primitive cells.     

Rare coexistence of keratinizing squamous metaplasia with xanthogranulomatous pyelonephritis. Report of a case with the role of immunocytochemistry in the differential diagnosis

BACKGROUND: Xanthogranulomatous pyelonephritis (XPN), a rare form ofchronicpyelonephritis, is commonly associated with lithiasis and rarely leads to keratinizing squamous metaplasia. Its manifestations closely mimic those of a renal neoplasm, leading to misdiagnosis of malignancy, often resulting in radical nephrectomy. The role of immunocytochemistry in the preoperative cytologic diagnosis is assessed in the present case report. CASE: A 20-year-old male presented with fever and an enlarging mass in the right renal angle. Ultrasonography revealed a heterogeneous mass in the renal pelvis. Fine needle aspiration cytology was advised to rule out malignancy. Aspiration smears from the mass showed many dissociated cells and clusters of them with abundant vacuolated cytoplasm, vesicular nuclei and prominent nucleoli in some cells. Many desquamated metaplastic squamous cells were also seen. The background was predominantly necrotic, with inflammatory cells. The cytologic possibility of XPN with squamous metaplasia vs. renal cell carcinoma was considered. Immunocytochemical markers, epithelial membrane antigen (EMA) and CD68 (histiocytic marker) were used to determine the nature of the suspicious vacuolated cells; these cells were immunoreactive for CD68 and negative for EMA, thus confirming the cytologic diagnosis of XPN with keratinizing squamous metaplasia. CONCLUSION: The case highlights the presence of metaplastic squamous cells in XPN in smears for the first time. Immunocytochemistry is an essential tool in the preoperative cytologic diagnosis of XPN. The patient can be managed conservatively with antibiotics.     

Cytologic features of pilocytic astrocytoma in cerebrospinal fluid specimens

OBJECTIVE: To illustrate the cytomorphologic features of pilocytic astrocytoma (PA) in cerebrospinal fluid (CSF) samples. STUDY DESIGN: A search of records from 1965 to 2001 was performed to identify all patients with a diagnosis of PA in whom CSF samples were examined. Slides from CSF samples originally reported as atypical, suspicious or positive were reviewed and the cytomorphologic features assessed. RESULTS: Two hundred ninety-three patients with a diagnosis of PA were identified. Of these, 44 had a total of 65 cytologic preparations of CSF. In 34 patients (77.2%) the CSF cytology was negative, in 5 (11.4%) either atypical or suspicious, and in 5 (11.4%) positive for neoplastic cells. The tumors in the 5 positive cases arose in the cerebellar hemispheres (2), cerebellar vermis (1), thalamus (1) and tectum with extension into the fourth ventricle (1). All positive samples were hypercellular, with an average of 5 cell clusters per case (range, 3-11). The clusters were composed of cohesive epithelioid cells with a mean of 8 cells per cluster. In addition, some cases had scattered, isolated, single cells. These single neoplastic cells had prominent, hairlike cytoplasmic processes. The cells in clusters appeared epithelioid, with oval nuclei, mild nuclear pleomorphism, finely or slightly coarsely granular chromatin and cobweblike cytoplasm. CONCLUSION: The cytomorphologic features of PAs recapitulate their histologic characteristics. The tumor cells are recognizable in CSF samples and readily distinguishable from histiocytes and ependymal cells.     

肝硬变中丙型肝炎病毒C33c抗原及HBxAg的分布及意义

应用抗ＨＣＶＣ３３ｃ抗原２Ｂ６株单克隆抗体和抗ＨＢｘＡｇ多克隆抗体。以ＡＢＣ法对８６例肝硬变组织进行ＨＣＶ及ＨＢＶ相关抗原定位研究,ＨＣＶＣ３３ｃ抗原及ＨＢｘＡｇ在肝硬变中的阳性率分别为７６．７％及６２．８％,Ｃ３３ｃ抗原和ＨＢｘＡｇ阳性占所检病例８８．４％,二者同时阳性为５１．２％,ＨＣＶＣ３３ｃ抗原位于肝硬变组织的肝细胞胞桨内,充满整个胞桨,细胞核及胸膜未见阳性;阳性细胞呈弥温、局灶及散在分布