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- B62右侧卵巢囊肿-透明细胞癌
| 性别 | 女 | 年龄 | 68岁 | 临床诊断 | |
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| 一般病史 | B超发现右侧卵巢囊肿 | ||||
| 标本名称 | 右侧卵巢囊肿 | ||||
| 大体所见 | 囊壁样组织一块,4X4X2CM,局部见1.5X1.5cm大小乳头状物。 | ||||
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本帖最后由 Renghis 于 2013-04-27 17:42:42 编辑
- 重归学生时代!
×参考诊断
卵巢透明细胞癌
This is an excellent teaching case. In term of pathogenesis of clear cell ca, most people think it can arise from endometriosis. In fact this is another pathway benign clear cell adenofibroma-----clear cell borderline tumor-----clear cell carcinoma. You can find all the three components for this case.
引用 11 楼 TK1905 在 2013-04-09 22:08:40 的发言:
分型:囊性型ccc;腺纤维瘤型ccc
另外一种:伴有腺纤维瘤型CCC;不伴有腺纤维瘤型ccc
下面的文献关于子宫内膜异位病与CCC的关系以及分型、预后等等内容;(似乎有矛盾的结论)
Cystic and adenofibromatous clear cell carcinomas of the ovary: distinctive tumors that differ in their pathogenesis and behavior: a clinicopathologic analysis of 122 cases.
Source
Department of Pathology, The Johns Hopkins University School of Medicine and Hospital, Baltimore, MD, USA. verase@mskcc.org
Abstract
Ovarian clear cell carcinomas (CCC) typically present as large adnexal, stage I tumors and are generally considered highly malignant. They are frequently associated with endometriosis and, less often with clear cell adenofibromas. We hypothesized that CCCs are a heterogeneous group of tumors, some arising from a cyst and others from an adenofibroma. To test this hypothesis, 122 cases of CCC were retrieved from the surgical pathology files of National Taiwan University Hospital (74), The Johns Hopkins Hospital (23), and Serei Mikatahara General Hospital (23) (1985 to 2006). Cases were divided into 3 subgroups: (1) cystic, (2) adenofibromatous, and (3) indeterminate. Various features were analyzed including: age, race, laterality, tumor size, architectural pattern (papillary, tubulo-cystic, solid, mixed patterns), grade, mitotic index, association with endometriosis including atypical endometriosis/intraepithelial carcinoma, stage and survival. Nearly 70% of all the patients were diagnosed as stage I. The 2-year and 5-year survival (all stages) was 78% and 68%, respectively. Striking clinicopathologic differences were observed between cystic and adenofibromatous CCCs. Cystic CCC was more frequently diagnosed as stage I compared with adenofibromatous CCC (75% vs. 44%). Conversely, adenofibromatous CCCs were diagnosed more often in advanced stages (stages II-IV) compared with cystic CCCs (56% vs. 18%). Both the cystic and adenofibromatous CCC forms were associated with endometriosis and atypical endometriosis/intraepithelial carcinoma, but the frequency was much higher in the cystic group. Specifically, endometriosis was found in 91% of cystic CCCs and atypical endometriosis/intraepithelial carcinoma in 62% of these cases, whereas endometriosis was found in 44% of adenofibromatous CCCs and atypical endometriosis/intraepithelial carcinoma in 11% of cases. A predominantly papillary pattern was seen in 47% of cystic CCCs, whereas none of the adenofibromatous carcinomas displayed a predominantly papillary pattern. A more favorable outcome was observed for cystic CCCs compared with adenofibromatous CCCs (all stages) which was accounted for by the high proportion of stage I tumors. The 2-year and 5-year survival for the cystic CCCs was 82% and 77% and for the adenofibromatous CCCs (all stages), 62% and 37%, respectively. In summary, subdividing ovarian CCCs into cystic and adenofibromatous CCC reveals differences in a number of clinicopathologic features including their association with endometriosis, histologic patterns, stage distribution, and clinical behavior. Because there were a relatively small number of adenofibromatous CCCs in this series, additional cases must be studied to confirm these findings.
Clear cell adenocarcinoma associated with clear cell adenofibromatous components: a subgroup of ovarian clear cell adenocarcinoma with distinct clinicopathologic characteristics.
Source
Department of Basic Pathology, National Defense Medical College, 3-2 Namiki, Tokorozawa, Saitama 359-8513, Japan.
Abstract
We occasionally encountered clear cell adenofibromatous (CCAF) components coexisting in the ovarian clear cell adenocarcinoma (CCA). To reveal the clinicopathologic significance of CCAF components in CCA, we classified 67 cases of surgically resected CCA into CCA with and without CCAF components [CCAF(+) and (-) groups], and compared clinicopathologic parameters, that is, patient age, clinical stage, the degree of optimal cytoreduction, patient outcome, histologic grade and Ki-67 labeling index of the CCA, and the presence of endometriosis, between these 2 groups. Fourteen cases (21%) and 53 cases were classified as CCAF(+) and CCAF(-) groups, respectively. Of these 14 CCAF(+) cases, the CCAF components with atypia were observed adjacent to the CCAF components without atypia in 10, and adjacent to the obvious CCAs in 13 cases. In comparison with the CCAF(-) group, the CCAF(+) group showed a higher frequency of histologically low-grade tumors [93% (13 of 14) vs. 43% (23 of 53), P=0.0027], a lower Ki-67 labeling index (mean 35.9% vs. 44.0%, P=0.0492), and better patient prognosis (5-year survival 78.8% vs. 49.3%, P=0.0277). Endometriosis was much less frequent in the CCAF(+) group than in the CCAF(-) group [14.7% (2 of 14) vs. 67.9% (36 of 53), P=0.00096]. Multivariate analysis identified only optimal cytoreduction as independent favorable prognostic factor. These results suggest that CCAF besides endometriosis is associated with the development of CCA, and that the CCAF(+) group may be a distinct subgroup of CCA with less aggressive biologic behavior.
Cancer. 2011 Feb 21;2:94-106.
Pathogenesis of ovarian clear cell adenofibroma, atypical proliferative (borderline) tumor, and carcinoma: clinicopathologic features of tumors with endometriosis or adenofibromatous components support two related pathways of tumor development.
Source
1. Department of Pathology, Magee-Womens Hospital, University of Pittsburgh Medical Center, Pittsburgh, PA, USA;
Abstract
The clinicopathologic features of 472 ovarian epithelial clear cell neoplasms (4 adenofibromas [AFs], 41 atypical proliferative [borderline] tumors [APTs], and 427 carcinomas [CAs]) were studied in order to elucidate the morphologic steps involved in the pathogenesis of these tumors and determine whether clear cell CA is a type I or type II tumor in the dualistic model of ovarian carcinogenesis. Thirty-three percent of the CAs had an adenofibromatous background [CA(AF+)], and 67% did not [CA(AF-)]. Endometriosis was found in all types of tumors, but tumors arising in endometriotic cysts were more frequent with CA(AF-)s (p<0.0001). The subset of women with CA(AF-)s with endometriosis were younger (p<0.0001), their tumors were more frequently cystic (p<0.0001), they more commonly had a mixed carcinoma component of non-clear cell type (p=0.006), and they were more frequently oxyphilic (p=0.015) compared with CA(AF+)s. The architecture of the former tumors was more commonly papillary compared to tubulocystic in the latter (p=0.0006). Atypical endometriosis was more common in CA(AF-)s than in AFs, APTs, and CC(AF+)s [p=0.004]. The subset of CA(AF-)s without endometriosis presented more frequently in advanced stage (>I) and were higher grade compared to CA(AF+)s or CA(AF-) with endometriosis (p-values, <0.0001 to 0.0071). All AFs and APTs were stage I compared to 79% of CA(AF+)s. An increase in mean tumor size correlated with each respective tumor category from AF (6.8 cm) to CA(AF+) [12.9 cm]. Notable nuclear atypia was absent in all AFs but was focally present in 27% of APTs and in the adenofibromatous background of 24% of the CA(AF+)s. An increase in the proportion of carcinoma in the CA(AF+)s correlated with an increase in grade and advanced stage. In summary, ovarian clear cell CA appears to develop along two pathways, both of which are related to endometriosis. We speculate that, in one, epithelial atypia arises in an endometriotic cyst and then evolves into clear cell CA, and, in the other, non-cystic endometriosis induces a fibromatous reaction resulting in the formation of AF, which then develops into APT and subsequently a clear cell CA. The absence of endometriosis or adenofibromatous components in CC(AF-)s may be due to overgrowth and obliteration by the invasive carcinoma. Finally, the findings in this study support the view that both types of clear cell CA [CC(AF+) and CC(AF-)] are more closely related to type I tumors.
Thank TK1905 to fine these three related papers. The last one is my paper which is the largest study in this area. I spent several years to review all the slides from AFIP. Unfortunately i cannot find the follow-up results for these old cases and cannot make the paper more significant.
