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Query: UMLS:C0004153 (
atherosclerosis
)
77,401
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A protective effect of estrogen is the most obvious reason for the substantial and consistent favored status of women vs. men with regard to coronary heart disease (CHD). This paper briefly reviews the history of studies of the estrogen-heart disease hypothesis, the reason why clinical trials of postmenopausal estrogen are necessary (despite the strength, consistency, and plausibility of the 'protection' seen in observational studies), and the status of the 'Postmenopausal Estrogen/
Progestin
Interventions' (PEPI) trial results and ongoing trials. The potential for nonhormonal primary prevention is emphasized.
Atherosclerosis
1995 Dec
PMID:Postmenopausal estrogen and heart disease. 882 60
Controversy exists regarding the effects of estrogen and estrogen/progestin replacement therapies on glucose tolerance and insulin resistance. Also unknown are whether changes in glucose tolerance and insulin resistance with hormone therapy affect arterial glycation and
atherosclerosis
. We studied ovariectomized female monkeys fed a lipid-lowering diet and given either no hormone replacement therapy (n = 25) or conjugated equine estrogens (CEE) alone (n = 22) or combined with medroxyprogesterone acetate ([
MPA
] n = 21) for 30 months. Monkeys receiving combined hormone replacement had significantly higher fasting glucose and insulin levels and higher insulin responses to a glucose challenge compared with controls or those given estrogen alone. Monkeys given estrogen-only therapy had lower body weights, lower measures of abdominal adiposity, and decreased serum androgen concentrations. However, due to the effective dietary lipid decrease, there was no additional effect of hormone treatment on
atherosclerosis
. Also, there was no correlation between either arterial glycation or insulin levels and
atherosclerosis
extent. Thus, although there were adverse effects of combined hormone replacement therapy on carbohydrate metabolism, we were unable to determine whether these effects altered the extent of
atherosclerosis
.
...
PMID:The effects of hormone replacement therapy on carbohydrate metabolism and cardiovascular risk factors in surgically postmenopausal cynomolgus monkeys. 884 81
The
Atherosclerosis
Risk in Communities Study investigators examined nearly 4000 postmenopausal women from 1987 through 1989 and 3 years later to determine changes in plasma lipids occurring with the starting or stopping of hormone replacement therapy. Women who started estrogen plus progestin therapy (n = 74) had decreases of 9.8 mg/dl in low-density lipoprotein (LDL) cholesterol and 5.8 mg/dl in apolipoprotein B and increases of 1.2 mg/dl in high-density lipoprotein (HDL) cholesterol (HDL change not significant), 13.5 mg/dl in apolipoprotein A-I, and 14.0 mg/dl in triglycerides. Women who started estrogen alone (n = 149) had similar changes, except for a much larger increase in HDL cholesterol (5.8 mg/dl), principally in HDL-2. Women who stopped hormone therapy (n = 138) had lipid changes opposite to those who started therapy, but smaller in magnitude. These results confirm those of the Postmenopausal Estrogen/
Progestin
Interventions Trial in a community-based longitudinal cohort: women initiating estrogen plus progestin therapy have decreases in LDL cholesterol, but the increase in HDL cholesterol is less than that for starting estrogen alone. In addition, the current study extends findings to apolipoproteins and HDL subfractions.
...
PMID:Changes in plasma lipids and lipoproteins associated with starting or stopping postmenopausal hormone replacement therapy. Atherosclerosis Risk in Communities Study. 889 66
Although the cardioprotective effect of estrogen is well recognized, the mechanisms by which this sex steroid provides a reduction in coronary artery disease are not fully understood. Vascular smooth muscle cells (VSMC) are present in early
atherosclerosis
and become the dominant cell type. VSMC contain estrogen receptors and may have specific responses to estrogen. We studied the effect of beta-estradiol on the proliferation of coronary VSMC obtained from sexually mature male, female, and oophorectomized pigs. Alpha-estradiol, an inactive isomer of estradiol, had no effect on cells obtained from male or female animals. In vascular smooth muscle cells obtained from sexually mature female animals, significant inhibition of proliferation of coronary vascular smooth muscle cells was noted at physiologic concentrations of beta-estradiol.
Progesterone
inhibited VSMC proliferation at concentrations of 10(-9)M. In contrast, beta-estradiol did not alter proliferation in porcine coronary vascular smooth muscle cells obtained from sexually mature male or from oophorectomized female animals. This study is the first to indicate, in an animal model, specific gender-related differences in cell proliferation in response to sex steroid hormones.
...
PMID:Differential response in cell proliferation to beta estradiol in coronary arterial vascular smooth muscle cells obtained from mature female versus male animals. 889 95
Increased incidence of cardiovascular disease in postmenopausal women (PMW) is accompanied by ovarian dysfunction; hormone replacement therapy (HRT) can have cardioprotective effects. Because hypertension and
atherosclerosis
are associated with impaired release of endothelium-derived nitric oxide (NO) and increased levels of low-density lipoproteins (LDL), we investigated whether HRT augments NO release, and whether these increases are accompanied by a decrease in LDL levels in PMW. We determined serum nitrite/ nitrate (NO2-/NO3-) and LDL levels at baseline (before initiation of HRT) and during the 6th and 12th months of the study. The PMW (n = 26) received continuous oral administration of estradiol valerate (Progynova, 2 mg daily) for 21 days supplemented with either oral cyproterone acetate (CPA; 1 mg; n = 11) or medroxyprogesterone acetate (
MPA
; 5 mg; n = 15) on days 12-21 of each treatment cycle. Blood samples in the PMW receiving HRT were collected at times while the subjects were taking estradiol valerate alone and estradiol valerate plus CPA or
MPA
. Compared with the samples collected at baseline, serum NO2-/NO3- levels increased significantly from 20.1 +/- 1.58 mumol/L at baseline to 30 +/- 3.7 mumol/L (P < 0.01) in samples collected after 12 months of HRT while the PMW were not taking progestins (CPA or
MPA
), and to 25.4 +/- 2 mumol/L (P < 0.05) when all the samples, regardless of the treatment with CPA or
MPA
, were included in the analysis. Moreover, > 30% increase in serum NO2-/NO3- levels were observed only in 13 (responders) out of 26 PMW substituted with estradiol valerate, suggesting that estradiol may improve endogenous NO synthesis in a differential fashion. Compared with baseline, no significant increases in serum NO2-/NO3- were observed in samples collected while the estradiol-treated responders were taking either CPA or
MPA
. In contrast to NO2-/NO3- serum LDL levels were significantly reduced in samples collected after 12 months of HRT (P < 0.05 vs. baseline). Furthermore, levels of NO2-/NO3 showed a significant negative correlation with the levels of LDL (r2 = 0.17; P < 0.05) in the responders but not in nonresponders. These results indicate that oral administration of estradiol valerate in PMW for HRT increases circulating NO levels, an effect that may contribute to the cardioprotective effects of HRT in PMW. In addition, our data suggests but does not prove that concomitant administration of a progestin may attenuate the beneficial effects of estrogen replacement therapy with regard to NO release. Finally, our data provides evidence for the existence of responders and nonresponders to postmenopausal estrogen treatment with respect to improvement of endogenous NO levels, suggesting that a significant number, but not all, of the hormonally substituted PMW profit fully from the beneficial properties of a HRT.
...
PMID:Differential effects of hormone-replacement therapy on endogenous nitric oxide (nitrite/nitrate) levels in postmenopausal women substituted with 17 beta-estradiol valerate and cyproterone acetate or medroxyprogesterone acetate. 902 24
Seventy postmenopausal women took part in the study. Subjects received either continuous oral 17 beta-estradiol 2 mg/day combined with norethisterone acetate 1 mg/day (E2/NETA, Kliogest) or transdermal treatment consisting of 28 day cycles with patches delivering 17 beta-estradiol 50 micrograms/day (Estraderm) combined with cyclic medroxyprogesterone acetate 10 mg/day (E2/
MPA
, Provera), on days 17-28. At baseline the serum lipid and lipoprotein concentrations, composition and concentrations of high density lipoprotein (HDL) subclasses, lipoprotein (Lp)(AI) and Lp(A-I:A-II) levels were comparable in the two groups. In the E2/NETA group, after 12 months hormone replacement therapy (HRT), the HDL2 cholesterol concentration decreased by 17% (P < 0.01) and the HDL3 cholesterol remained unchanged. The concentrations of HDL2b, HDL2a and HDL3a were reduced by 30, 26 and 15%, respectively, P < 0.001, and the cholesterol:triglyceride ratio decreased significantly in all HDL subclasses. Apolipoprotein (apo) A-I concentration decreased by 5% (P < 0.05), but apo A-II, Lp(A-I) and Lp(A-I:A-II) concentrations remained unchanged. In the E2/
MPA
group the HDL2 and HDL3 cholesterol levels were both reduced by 6% (P < 0.05) and the HDL3a, HDL3b and HDL3c concentrations decreased by 14, 12 and 17% during the E2/
MPA
phase compared with baseline (P < 0.01). No major changes in the composition of HDL subclasses occurred in the E2
MPA
group during treatment. The apo A-I and Lp(A-I) levels were not changed, but apo A-II and Lp(A-I:A-II) concentrations decreased by 8 and 5%, P < 0.001 and P < 0.05, respectively. At 12 months the postheparin plasma hepatic lipase (HL) activity decreased only in the E2/NETA group (by 12%, P < 0.05). The cholesteryl ester transfer protein (CETP) activity was not affected by either HRT regimen. The results of our study show that the 2 HRT regimens have multiple effects on HDL particles and HRT induced changes in HDL are not associated with changes in activities of lipolytic enzymes or CETP.
Atherosclerosis
1997 Mar 21
PMID:Responses of HDL subclasses, Lp(A-I) and Lp(A-I:A-II) levels and lipolytic enzyme activities to continuous oral estrogen-progestin and transdermal estrogen with cyclic progestin regimens in postmenopausal women. 910 68
Mortality from atherosclerotic cardiovascular disease is lower in premenopausal women than in age-matched men. It is also lower in postmenopausal women who take estrogens and progestins together rather than estrogens alone.
Progesterone
receptors were detected in human and rat aortic smooth muscle cells in vivo and in vitro (in subculture). We examined the effect of progesterone on proliferation of smooth muscle cells, important constituents of atherosclerotic plaques.
Progesterone
at physiologic levels inhibited DNA synthesis and proliferation in these cells in a dose-dependent manner, and pretreatment with the progesterone receptor antagonist RU486 blocked inhibition. Cyclin A and E messenger RNA levels decreased after progesterone treatment but those of cyclin B and D1 did not change. This cell cycle-dependent inhibition of arterial smooth muscle cell proliferation by progesterone may represent a mechanism for the hormone's protective effect against
atherosclerosis
.
...
PMID:Progesterone inhibits arterial smooth muscle cell proliferation. 928 27
The oxidative modification of low density lipoprotein (LDL) is important in the pathogenesis of
atherosclerosis
, and oestrogen has been shown to inhibit copper and cell mediated oxidation of LDL in vitro. We have investigated the effect of oral and transdermal oestrogens (oestradiol valerate 1 mg, conjugated equine oestrogens 0.625 mg and patches releasing 50 microg oestradiol daily), oestrogen implants (oestradiol 50 mg) and oral combined oestrogen and progestogen (oestradiol valerate 2 mg with medroxyprogesterone acetate 5 mg and oestradiol valerate 2 mg with norethisterone acetate 1 mg), on the susceptibility of LDL to oxidation in postmenopausal women (total n = 56). Oxidation of LDL was initiated by the addition of copper ions, and monitored by measurement of conjugated dienes. Changes in fasting serum levels of total cholesterol, LDL, HDL and triglycerides were also evaluated, as were changes in LDL composition. Total cholesterol decreased by 5.5% (P < 0.05) with CEE, 6.8% with oestradiol implants (P < 0.05), 9.3% with oestradiol +
MPA
(P < 0.01) and 10% with oestradiol + norethisterone (P < 0.05). There were reductions in LDL with oral oestradiol valerate (7.8%) (P < 0.05), CEE (13.8%) (P < 0.01) and oestradiol combined with
MPA
(12.7%) (P < 0.05). HDL increased by 7.1% (P < 0.01) and 6.3% (P < 0.05), with oestradiol valerate and CEE respectively, and decreased by 9% (P < 0.05) with implants and by 14.7% with oestradiol combined with norethisterone (P < 0.01). Triglycerides were significantly increased with CEE (14.9%) and reduced with oestradiol implants (15.2%) (both P < 0.05). While there was no change in the ratio of 'cholesterol ester' to 'free cholesterol' within LDL with any of the HRT preparations, a reduction in total cholesterol and cholesterol ester content of LDL occurred with transdermal oestradiol and a reduction in free cholesterol occurred with oestradiol plus
MPA
. Although we found a small but significant decrease in plasma hydroperoxide concentration four weeks after insertion of the oestradiol implant from 1.17 +/- 0.06 to 1.03 +/- 0.04 micromol/l (P < 0.05), we found no significant change in the lag time to oxidation, or in the maximum rate of propagation of the reaction, after treatment with any of the above forms of hormone replacement therapy. This study does not therefore support the role of oestrogens as antioxidants in vivo.
Atherosclerosis
1997 Nov
PMID:The effect of hormone replacement therapy on the oxidation of low density lipoprotein in postmenopausal women. 939 75
There is a strong link between menopause and increased cardiovascular disease incidence in women, and observational studies suggest that postmenopausal hormone replacement therapy reduces cardiovascular disease risk by about half. Observational studies suffer from important limitations, however, and the only published prospective controlled trial of the effects of hormone replacement therapy on cardiovascular outcomes, the Heart Estrogen-
Progestin
Replacement Study (HERS), showed no net benefit of continuous estrogen plus synthetic progestin treatment in women with established coronary disease. Fundamental mechanistic studies of the cellular and molecular events by which hormones protect (or fail to protect) blood vessels from damage are needed to define the role of postmenopausal hormone replacement therapy in cardiovascular disease prevention. Most studies suggest that estrogen inhibits the neointimal response to acute injury in normal blood vessels, but this vasoprotective effect was not seen in vessels with preexisting
atherosclerosis
. Studies from our laboratory in the rat carotid injury model have shown that estrogen inhibits neointima formation via effects on all 3 layers of the vascular wall, including inhibition of medial smooth muscle cell migration and proliferation, stimulation of regrowth of endothelium, and inhibition of adventitial cell migration into neointima. Our laboratory is currently using transduced (lacZ) syngeneic fibroblasts as 'reporter' cells to delineate the factors that stimulate migration of adventitial cells into neointima after vascular injury and their modulation by estrogen and the other sex hormones. These fundamental studies will establish more rational strategies for therapeutic intervention in vascular diseases, including the basis for future gene therapy.
...
PMID:Arthur C. Corcoran Memorial Lecture. Hormones and vasoprotection. 993 Nov
In every year since 1984, cardiovascular disease has claimed the lives of more females than males. More than 450,000 women succumb to heart disease annually, and 250,000 die of coronary artery disease. Despite the proportions, most women believe they will die of breast cancer. The perception that heart disease is a man's disease and that women are more likely to die of breast cancer is alarming. Although women develop heart disease about 10 years later than men, they are likely to fare worse after a heart attack. The poorer outcomes are due, in part, to the failure to identify heart attack symptoms. Approximately 35% of heart attacks in women are believed to go unnoticed or unreported. However, because of increased age, women are more likely to have co-morbid diseases such as diabetes and hypertension. In women, not only is "tightness" or discomfort in the chest a warning sign, but in addition, nausea and dizziness are common indicators of myocardial ischemia. Other symptoms include breathlessness, perspiration, a sensation of fluttering in the heart, and fullness in the chest. In comparison to men, women are less likely to undergo tertiary care interventions such as cardiac catheterization, angioplasty, thrombolytic therapy, and bypass surgery; to participate in cardiac rehabilitation; and to return to work full-time after myocardial infarction. In the past, most research about treatments for heart disease focused on men, and gender differences have been ignored. Recent studies are enrolling enough women to test if there are differences between men and women in outcomes. One of the major areas of research relates to estrogen and hormonal replacement therapy to reduce the relative risk of heart attack and stroke. The Women's Health Initiative is a major NIH-sponsored trial that addresses the issue of primary prevention of cardiac disease by hormonal replacement therapy. The results will be available in 2004. The Heart Estrogen/
Progestin
Replacement Study (HERS), disappointingly, did not show a significant reduction of coronary events in women taking hormonal replacement therapy, nor did the Estrogen Replacement and
Atherosclerosis
(ERA) trial of 309 postmenopausal women who underwent coronary angiography. New insight into the role of vitamins, phytoestrogens and other natural sources, and selective estrogen receptor modulators may provide other options for management. Until then, modification of risk factors and healthy life style choices are recommended for reducing the risk of cardiac disease. In fact, the key to a healthy heart in the year 2000 appears closely tied to life style choices. Prevention of disease is the key, and current recommendations are simply to stop smoking, or do not start; treat and control blood pressure >140/90 mm Hg; manage elevated lipids by diet, exercise, and cholesterol-lowering medications (if necessary); treat diabetes; lose weight so that BMI is <25; walk for 20-30 minutes at least three times a week; and take an aspirin tablet daily.
...
PMID:Heart disease in women. 1114 May 44
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