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1 n report impaired sexual functioning despite estrogen replacement.
2 ce the risk of breast cancer associated with estrogen replacement.
3 significantly by ovariectomy and reversed by estrogen replacement.
4 ocked in ovariectomized rats and elevated by estrogen replacement.
5 of BrdU-labeled cells, an effect reversed by estrogen replacement.
6 zed by ovariectomy and reversed partially by estrogen replacement.
7 2) rats with OVX; and 3) rats with OVX with estrogen replacement.
8 ctomy (OVX) that are or are not treated with estrogen replacement.
9 sEH was increased in the kidney with estrogen replacement.
10 b of the diagonal band of Broca after ovx or estrogen replacement.
11 benefits associated with early initiation of estrogen replacement.
12 ized with (OVX+E, n=6) or without (OVX, n=8) estrogen replacement.
13 gnificantly increased in the heart following estrogen replacement.
14 , or old [24-26 months]) and with or without estrogen replacement.
15 ere part of a randomized controlled trial of estrogen replacement.
16 tomized females, ovariectomized females with estrogen replacement (10 microg 17beta-estradiol in 100
19 ers from ovariectomized rats with or without estrogen replacement after 4 weeks of continuous ethanol
20 bout negative overall health consequences of estrogen replacement after menopause have led to the ado
21 nary artery disease who were enrolled in the Estrogen Replacement and Atherosclerosis trial with resp
23 male ovariectomized rats were provided acute estrogen replacement and the number of cortical GABA, ER
24 r trends, hematologic factors, homocysteine, estrogen replacement, and familial and genetic factors.
25 female dentate granule cells with long-term estrogen replacement at either high or low levels still
26 hyperparathyroidism have included the use of estrogen replacement, bisphosphonates, and a new class o
30 rthermore, it is not known whether childhood estrogen replacement combined with growth hormone therap
31 am surgery compared to OVX or after OVX plus estrogen replacement compared to OVX plus placebo treatm
38 ol metabolite of equine estrogens present in estrogen replacement formulations, autoxidizes to a redo
42 and senescence and was partially restored by estrogen replacement, implicating ovarian hormones in th
45 ortant implications for cognitive effects of estrogen replacement in postmenopausal women and demonst
46 plasma estrogen level to drop 100-fold, the estrogen replacement in preterm infants is physiological
47 at androgen treatment may be as effective as estrogen replacement in reversing the decline in hippoca
51 model to test whether surgical menopause and estrogen replacement influence the cognitive outcome of
52 tion was unaffected by OVX but enhanced with estrogen replacement (intact, 55+/-8; OVX, 59+/-7; OVX+E
53 tion was diminished by OVX and restored with estrogen replacement (intact, 82+/-7; OVX, 61+/-9; OVX+E
61 udies with ovariectomized and ovariectomized/estrogen replacement mouse models demonstrated that HDL-
63 presence of estrogen, the effects of ovx and estrogen replacement on ChAT mRNA levels were also exami
65 s can contribute to the effects of long-term estrogen replacement on cognitive performance recently d
66 s may, in turn, contribute to the effects of estrogen replacement on hippocampal connectivity and cog
67 s study demonstrates a significant effect of estrogen replacement on IGF system components in synovia
68 the effects of gonadectomy with and without estrogen replacement on the mRNA and protein of BDNF and
69 termined the effect of ovariectomy (OVX) and estrogen replacement on the ultrastructural localization
70 termine the effects of ovariectomy (ovx) and estrogen replacement on trkA mRNA levels in the rat basa
71 We studied the effect of ovariectomy and estrogen replacement on tumor formation in C57BL/6J-Min/
72 ctomized Sprague-Dawley rats received either estrogen replacement or sham surgery, and then received
75 three groups: ovariectomized (OVX), OVX with estrogen replacement (OVX+E2), or sham OVX (tested in di
78 t neither 3 weeks nor 13 weeks of continuous estrogen replacement prevented the loss of choline acety
80 ells isolated from ethanol-treated rats with estrogen replacement produced more tumor necrosis factor
82 postmenopausal women and demonstrate that an estrogen replacement protocol that mimics normal physiol
84 mphasizes the need to investigate a periodic estrogen replacement regimen to reduce cognitive decline
85 interleukin-6 (IL-6), we determined whether estrogen replacement regulates the levels of these facto
86 were reduced in female Cyp2j5 (-/-) mice and estrogen replacement restored blood pressure and vascula
87 verloaded mice after ovary removal; however, estrogen replacement restored the effectiveness of silde
88 ning, and long-term (days) androgen, but not estrogen, replacement restored these parameters of AR im
89 , the density calculations showed that brief estrogen replacement restores the density of tyrosine hy
90 females results in increased mortality, and estrogen replacement results in decreased mortality in b
92 among the loss of ovarian steroid hormones, estrogen replacement, seizures, and seizure-induced cell
93 Fos expression in animals which had received estrogen replacement showed no change in response to i.c
95 dihydrotestosterone (DHT) had no effect, but estrogen replacement significantly increased aconitase a
96 ological age as the 19-month post-OVX group, estrogen replacement significantly increased synaptic fu
99 rcome alpha-fetoprotein sequestration of E2, estrogen replacement studies during development have use
103 ars) were grouped according to HRT received: estrogen replacement therapy (ERT) (n = 13), combined (e
104 logic studies suggest a protective effect of estrogen replacement therapy (ERT) against the developme
106 nction in 14 post-menopausal women receiving estrogen replacement therapy (ERT) and 48 post-menopausa
107 ated that women who have used postmenopausal estrogen replacement therapy (ERT) are at reduced risk o
108 ociation between endometrial cancer risk and estrogen replacement therapy (ERT) by CYP17 genotype usi
112 nd, therefore, it has been hypothesized that estrogen replacement therapy (ERT) may have a role in pr
113 g-term (2 years) effects of estrogen loss or estrogen replacement therapy (ERT) on cholinergic neuron
114 umerous epidemiological studies suggest that estrogen replacement therapy (ERT) reduces cancer risk i
115 Although observational studies suggest that estrogen replacement therapy (ERT) reduces cardiovascula
119 luteal) women, older postmenopausal women on estrogen replacement therapy (ERT), and older postmenopa
120 intake after age 60 y, body weight, current estrogen replacement therapy (ERT), and past oral contra
122 at menarche, parity, oral contraceptive use, estrogen replacement therapy (ERT), or history of oophor
123 on to the duration and the recency of use of estrogen replacement therapy (ERT), simultaneously inclu
132 isk for reinfarction associated with current estrogen replacement therapy after myocardial infarction
133 provides reassurance regarding the safety of estrogen replacement therapy after myocardial infarction
135 attempted to determine the relation between estrogen replacement therapy and the rate of restenosis
136 es evaluating endogenous estrogen levels and estrogen replacement therapy and their relation to the o
139 These results suggest a mechanism by which estrogen replacement therapy can delay or prevent AD.
142 nctional connectivity.SIGNIFICANCE STATEMENT Estrogen replacement therapy following menopause or surg
144 disorders, and provide another rationale for estrogen replacement therapy for postmenopausal women.
145 verse effect and raise concern for long term estrogen replacement therapy for stroke prevention, thes
146 is now strong epidemiological evidence that estrogen replacement therapy has a protective effect in
148 onducted clinical trials have indicated that estrogen replacement therapy has an adverse effect and r
155 raised concern for the protective effect of estrogen replacement therapy in postmenopausal women.
156 ese findings have important implications for estrogen replacement therapy in the context of aging.
157 Ovariectomized Sprague-Dawley rats received estrogen replacement therapy in the form of subcutaneous
158 or binding was significantly increased after estrogen replacement therapy in the right prefrontal cor
163 nd clinical trials consistently suggest that estrogen replacement therapy is associated with benefici
167 om small clinical trials have suggested that estrogen replacement therapy may be useful for the treat
168 rmed the suggestion from animal studies that estrogen replacement therapy may have an inverse relatio
169 Epidemiologic studies have suggested that estrogen replacement therapy may lower the risk of osteo
170 Recent studies indicate that postmenopausal estrogen replacement therapy may prevent or delay the on
171 tion of Abeta40/42 peptides, suggesting that estrogen replacement therapy may protect women against t
172 ent study do not support the hypothesis that estrogen replacement therapy may slow age-related cognit
173 reast cancer, and that alcohol combined with estrogen replacement therapy may synergistically enhance
175 e of this study was to assess the effects of estrogen replacement therapy on long-term outcome, inclu
177 trials have mainly focused on the effect of estrogen replacement therapy on the primary and secondar
178 ngs that adding progestins to postmenopausal estrogen replacement therapy protects against endometria
179 l epidemiological studies have reported that estrogen replacement therapy protects against the develo
183 This study demonstrates the potential for estrogen replacement therapy to reduce angiographic meas
184 he relation of endogenous estrogen levels or estrogen replacement therapy to the risk of poor cogniti
185 establishing the initiation and duration of estrogen replacement therapy use as a means to prevent c
187 ed with the combination of dense breasts and estrogen replacement therapy use; there was little diffe
188 for nondense breasts and 74% (180 of 244) in estrogen replacement therapy users and 81% (417 of 513)
190 available regarding the relative benefits of estrogen replacement therapy versus reductase inhibitors
191 all-cause mortality associated with current estrogen replacement therapy was 0.50 (95% CI 0.25-1.00)
192 s 0.50 (95% CI 0.25-1.00), and that for past estrogen replacement therapy was 0.79 (95% CI 0.56-1.09)
193 interval (CI) 0.32-1.30), and that for past estrogen replacement therapy was 0.90 (95% CI 0.62-1.31)
196 lity as well as data on age, height, weight, estrogen replacement therapy, and menopause status were
197 Epidemiologic studies of women who take estrogen replacement therapy, however, consistently repo
198 varied significantly with ethnicity, use of estrogen replacement therapy, mammographic breast densit
199 T(4)), and the HPG axis-based treatments of estrogen replacement therapy, the progesterone derivativ
211 women who were receiving oral or transdermal estrogen-replacement therapy (44 of whom were receiving
213 Observational studies have suggested that estrogen-replacement therapy may reduce a woman's risk o
217 uite frequently in postmenopausal women, but estrogen replacement to correct these CNS disorders is a
218 elevance of these effects to the ability for estrogen replacement to enhance cholinergic activity and
219 in young adult rats prevents the ability of estrogen replacement to increase synaptic function in th
221 The present study examined the ability of estrogen replacement to protect basal forebrain choliner
223 However, by 19 months post-OVX, the same estrogen replacement was unable to induce these changes.
225 (E2; n = 8) or not receiving (NO E2; n = 9) estrogen replacement were compared with age- and BMI-mat
227 sults suggest that such women should not use estrogen replacement with an expectation of cardiovascul
228 ung and aged hippocampi react differently to estrogen replacement, with the aged animals unable to mo