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Query: UMLS:C0476089 (endometrial cancer)
11,379 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The risks and benefits of specific types of postmenopausal estrogens and progestogens are explored: those affecting serum lipids, clotting elements, hepatic proteins synthesis, blood pressure, glucose tolerance, endometrial, breast and cervical cancer. Ethinyl estradiol taken orally is the only estrogen likely to cause gall bladder disease. It also induces liver protein synthesis when taken orally or vaginally. Natural estrogens do not heighten coagulation factors, and may shift towards fibrinolysis. Both ethinyl estradiol and equine estrogens may increase blood pressure, while natural estrogens may decrease it. Similarly natural estrogens induce prostacyclin synthesis, while ethinyl estradiol activates both prostacyclin and thromboxanes. Progestagens, especially so the norprogestins, disturb carbohydrate metabolism and tend to reverse the beneficial effects of estrogens on serum lipids, a 40-70% reduction in risk of mortality from coronary heart disease. A meta- analysis of 23 studies concluded that menopausal estrogens do not increase the risk of breast cancer by a measurable degree, except in high doses and in those predisposed by family history. There is an increased risk of endometrial carcinoma for those taking unopposed estrogens for more than 3-6 years. This can be attenuated by taking combined estrogen-progestins, which will eventually result in absence of bleeding, or a 12-day progestogen course every 4-6 cycles. Oral micronized progesterone decreases blood pressure. The relative androgenic effects of progestins other than the norprogesterone derivatives are less significant. As an alternative to taking a progestogen, a woman could have regular endometrial sampling or abdominal or vaginal sonograms to detect endometrial cancer.
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PMID:Risks of estrogens and progestogens. 217 Aug 23

The clinical use of estrogens and progestogens for menopausal women is reviewed, discussing the indications, results of studies on effectiveness of various agents o each target organ, contraindications, risk-benefit ratio, and types of drug preparations available and used in European countries. The indications for menopausal hormone replacement are primarily to prevent myocardial infarction and osteoporosis, and also to treat early menopause, urogenital atrophy, and severe skin, mucous membrane and psychic disorders. Mechanisms of action of estrogens and progestins, and anticipated results are detailed for each of the indications. Contraindications typical of oral contraceptives usually do not apply for hormone replacement. For example, only severe acute liver disease, current thromboembolism, endometrial cancer other than I, and breast cancer within 3-5 years of primary treatment are contraindications. Neither cervical, ovarian or vulvar cancer, diabetes, varicose veins, hypertension, nor history of liver disease or thromboembolism are contraindications: in some cases progestins or transdermal estrogens are recommended. Estrogen side effects suggest overdosage. Progesterone or its derivatives rather than oral contraceptive progestins are prescribed. There is a clear benefit, comparing cost of medication to that of treating consequences of estrogen deficiency. The preparations currently used in Europe include oral micronized estradiol, conjugated estrogens, transdermal patches, local vaginal estrogens, and injectable estradiol esters for those who cannot tolerate oral or transdermal agents. Preparations should contain progesterone unless the woman has had a hysterectomy. Combinations designed to avoid withdrawal bleeding are available.
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PMID:Clinical use of oestrogens and progestogens. 221 69

Estrogen therapy is extremely effective in relieving menopausal symptoms such as hot flushes, night sweats, urogenital atrophy and certain psychological symptoms. The short term side effects from this therapy are usually mild and self-limiting. They are more common in women who commence hormone replacement therapy some years after the menopause than in those who start treatment at about the time of the ovarian failure. Pre-existing gynaecological conditions such as fibroids and endometriosis can be worsened by estrogen therapy. The majority of published studies suggest a beneficial effect of postmenopausal estrogen therapy on cardiovascular and cerebrovascular disease. These effects may be mediated by favourable changes in lipids, but other mechanisms may also be involved. It is uncertain whether the adverse changes in lipids caused by progestogen therapy will reduce any of the benefits of estrogen therapy on the cardiovascular system. Osteoporosis is the major bone disease of the Western world; long term estrogen therapy will prevent its development in most postmenopausal women. The risk of endometrial carcinoma is increased with unopposed estrogen therapy; this increased risk appears to be abolished if a progestogen is added at an adequate dose and duration for each cycle. The risk of ovarian or cervical cancer is not increased with estrogen therapy. There may be an increased risk of breast carcinoma with long term postmenopausal estrogen use, but the studies show inconsistent results.
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PMID:A risk-benefit assessment of estrogen therapy in postmenopausal women. 222 68

To examine the relationship between exogenous estrogen administration and endometrial cancer, we used data from the Cancer and Steroid Hormone Study, a multicenter, population-based case-control study. Estrogen replacement therapy for greater than or equal to 2 years was associated with an increased risk of both localized and extrauterine cancer (relative risk = 2.8, 95% confidence limits 1.6, 4.6; relative risk = 2.9, 95% confidence limits 0.9, 9.4, respectively). However, the latter finding was based on a small number of cases in which estrogen was used. Women who underwent estrogen replacement therapy for greater than or equal to 2 years had significantly elevated risks of endometrial cancer (2.1 for 2 to 5 years and 3.5 for greater than or equal to 6 years). An elevated risk persisted for greater than or equal to 6 years after discontinuation of therapy. Women who exclusively used conjugated equine estrogen preparations less than or equal to 0.625 mg had no increased risk of endometrial cancer. A history of oral contraceptive use appeared to reduce the risk of endometrial cancer associated with estrogen replacement therapy. However, these latter two potentially important findings were based on a small number of cases in which hormones were used.
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PMID:Estrogen replacement therapy and the risk of endometrial cancer: remaining controversies. 230 83

Estrogen (ER) and progesterone (PgR) receptor values in 105 endometrial carcinomas were compared using immunocytochemical and standard biochemical techniques. Peroxidase-antiperoxidase staining for location of anti-ER (H222) and anti-PgR (JZB39) primary antibodies was used to generate a semiquantitative (HSCORE) assessment of receptor content in tissue components and the total specimen. Both total HSCORE and cancer component HSCORE correlated with log biochemical assay values for ER and PgR. Biochemical assay values, total HSCORE, and cancer component HSCORES all demonstrated internal correlations between ER and PgR levels. Correlation was somewhat closer for cancer component HSCORE values of ER and PgR than the values for total tissue HSCORE. When receptor content was analyzed by histologic grade, all three estimates of receptor status demonstrated a decreasing proportion of ER and PgR positive lesions with decreasing histologic differentiation; however, the proportion of receptor negative lesions in grade 3 lesions was much higher when using total HSCORE or cancer component HSCORE than when using biochemical assay values (P less than 0.005. Immunocytochemical techniques for localization of ER and PgR in endometrial carcinoma specimens may allow a more focused evaluation of the receptor content in the malignant elements than standard biochemical techniques.
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PMID:Estrogen and progesterone receptor content of endometrial carcinomas: comparison of total tissue versus cancer component analysis. 231 45

UM-EC-2 was established from a patient with poorly differentiated stage IB endometrial carcinoma. This cell line produces tumors in nude mice that have the same histological features as the patient's tumor. UM-EC-2 cells express b2-microglobulin, the epidermal growth factor receptor (EGF), and the H blood group antigen. This membrane antigen phenotype is consistent with cells of human endometrial origin. The karyotype of UM-EC-2 is fairly complex, with rearrangements affecting all chromosomes except 3, 10, 14, 19, and 20. There were two populations of cells, a hyperdiploid population with a modal number of 53-55 and a hypertetraploid population with a modal number of 109. A postulated sequence of events before and after tetraploidization is suggested based on the number of copies of individual chromosomes and rearrangements. Comparison of the UM-EC-2 karyotype to that of UM-EC-1 (a previously described line from a different patient with endometrial carcinoma) revealed that the two lines share eight very similar chromosome changes, which include loss of most of chromosome 4, breakpoints affecting proximal bands on 8p, loss of most of 9q, a breakpoint at 12q22, loss of 13q, breakpoints in proximal bands on 18q, and a breakpoint at 22p11. These changes may represent nonrandom chromosome abnormalities in poorly differentiated endometrial cancer. Estrogen (ER) and progesterone (PgR) receptors were not detected in either the primary tumor or the cell line. Nevertheless, UM-EC-2 cells were very sensitive to growth inhibition by tamoxifen (TAM) in vitro. One micromolar TAM caused 50% inhibition of cell growth, 2.5 microM caused cytostasis, and 5 microM TAM was cytotoxic, killing all cells after 5-7 days of exposure to the drug. Paradoxically, 100 nM estradiol (E2) caused a moderate increase in the growth of the cells but it did not prevent or reverse growth inhibitory effects of TAM. These findings support the concept that in some tumors TAM causes growth inhibition by an ER-independent mechanism. UM-EC-2 cells were also sensitive to growth regulation by EGF. Thus, these cells provide a new in vitro model of human endometrial cancer in which the roles of both TAM and EGF as growth regulatory substances can be investigated.
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PMID:Establishment and characterization of UM-EC-2, a tamoxifen-sensitive, estrogen receptor-negative human endometrial carcinoma cell line. 234 64

The records of 16 patients with an obstructed, fluid-filled uterus due to carcinoma of the uterus or to its treatment by radiation therapy were analysed. In 12 uteri the presence of malignant tumor was simultaneously established, e.g. primary cervical carcinoma (1), recurrence of cervical (4), endometrial Stage II or III carcinoma (2), second primary tumors, MMT (2), and endometrial carcinoma (3). The uterine fluid consisted of blood (8), pus (3) or was serous (3). Twice the fluid could not be analysed. In our series the prognosis of patients with recurrent cervical cancer or a second primary tumor was poor. Improvement of the prognosis can result by intensifying the follow-up examinations with CT and/or ultrasound in the first 2 years, and not by prolongation of the follow-up period. Estrogen therapy was believed to be the causal factor in three cases of hemotometra. In the near future an increase of this complication is possible as a consequence of hormonal replacement therapy given to prevent osteoporosis after pelvic irradiation.
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PMID:Fluid detection in the uterus during and after irradiation for carcinoma of the cervix--clinical implications. 240 60

Estrogen replacement therapy (ERT) for postmenopausal women greatly reduces the risk of osteoporotic fractures, but carries an increased risk of endometrial cancer. This risk can be reduced by the addition of progestin, which does not interfere with the osteoporotic benefit of estrogen. Although long-term use data are few, there is presently little evidence for an increase or decrease in breast cancer risk associated with estrogen by itself (unopposed estrogen), or estrogen plus progestin. In contrast, a large body of evidence suggests that unopposed estrogen significantly reduces the risk of cardiovascular disease; there is no evidence that this benefit will persist when a progestin is added. The preferred method of estrogen replacement therapy, to prevent osteoporosis in a postmenopausal woman with an intact uterus, should be chosen with these different risks and benefits in mind.
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PMID:The risks and benefits of long-term estrogen replacement therapy. 251 3

Estrone sulfate (E1-S) has been shown to be quantitatively the most important estrogen in peripheral blood. But, the physiological and/or pathological role of E1-S is not yet clarified. At present, we tried to clarify it using tissue cultures. In tissue cultures of human endometrium, secretory endometrium showed higher activity of estrone sulfatase (E1----E1-S) than proliferative endometrium. Progesterone added in the medium induced an increase of estrone sulfotransferase in the proliferative endometrium. The results suggest a reducing effect of estrogen by progesterone in secretory endometrium in physiological conditions. Estrogen dependent malignant tumors (breast cancer, endometrial cancer) have high estrone sulfatase. It converts E1-S to E1 (----E2) which are abundant in these tumors. Ishikawa cell line increased estrone sulfotransferase activity with progesterone, somewhat like the physiological conditions. From out study in vivo, there is a possibility of some ameliorative effects of E1-S on the central nervous system of patients with senile dementia (Alzheimer's type). Effects of E1-S on central nerves were investigated using tissue cultures.
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PMID:[Tissue culture and estrogen, to clarify the roles of estrone sulfate]. 251 12

Estrogen biosynthesis (aromatase activity) was investigated in human adenomyosis tissue and compared with that of the normal myometrium, endometrium, and endometrial cancer tissues. Homogenates were incubated with [1,2,6,7-3H]androstenedione and NADPH at 37 degrees C for 1 h. After stopping the enzymatic reaction with ethyl acetate, [4-14C]estrone and [4-14C]estradiol-17 beta were added to the incubated sample. Estrone and estradiol were purified and identified by Bio-Rad AG1-X2 column chromatography, thin-layer chromatography and co-crystallization. Estrogen formed in the incubated sample was calculated from the 3H/14C ratio of the final crystal. The value for estrone formed from androstenedione was 52-132 fmol.h-1.g-1 wet weight. Aromatase activity in the adenomyosis tissues was higher than that in normal endometrial or myometrial tissues, but lower than that found in myometrial or endometrial tumour tissue. Furthermore, we investigated the effect of danazol, progesterone, and medroxyprogesterone acetate on adenomyosis cells in primary cultures. Aromatase activity in adenomyosis was blocked by danazol, but stimulated by progesterone and MPA. These results indicate that aromatase activity in adenomyosis may contribute to the growth of the ectopic endometrial tissue which occurs in this disease.
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PMID:Estrogen biosynthesis in human uterine adenomyosis. 252 61

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