608 Clinical Trials for Various Conditions
This within-person, crossover, 2-condition, placebo-controlled study compares the impact of two perimenstrual conditions on severity of suicidal symptoms in females with past-month suicidality but minimal risk of imminent suicide attempt. The two conditions are (1) perimenstrual administration of estradiol and (2) natural perimenstrual withdrawal from estradiol during placebo.
The goal of this study is to learn how long-term use of estrogen affects blood vessels in healthy adults. Participants will: * give one blood draw of 5 mL * have a camera placed under the tongue to take pictures of blood vessels * have 2 laser Doppler microdialysis catheters placed on the forearm to monitor blood vessels before and after local drug infusion Researchers will compare blood vessel function of those who take estrogen to those who do not.
Women in the menopause transition (perimenopause) experience substantial day-to-day variability in estradiol and have a 2-4-fold increase in major depression risk. About 40% of perimenopausal women are susceptible to the emergence of affective symptoms tied to changes in estradiol. Among the perimenopausal women with affective impairment, most report irritability, not "depression," is their primary source of impairment and distress. The purpose of this research is to determine the neurophysiologic basis of susceptibility to estradiol fluctuations and irritability symptoms in perimenopausal women.
The purpose of this study is to determine the effect of a novel menopause hormone therapy on blood sugar (glucose) and blood and liver fats (lipids) in obese menopausal women Veterans.
Randomized, placebo-controlled study investigating the use of physiologic, transdermal estrogen for low bone mass in adult women with anorexia nervosa.
This is a randomized, double blind, placebo-controlled study of the effects of transdermal estradiol versus placebo on cognitive flexibility, reward processing, and eating disorder pathology in hypoestrogenemic female adolescents and young adults (ages 14-35 years) with an eating disorder characterized by extreme dietary restriction and/or excessive exercise. Subjects will be randomized 1:1 to 12 weeks of transdermal estradiol with cyclic progesterone or placebo patches and cyclic placebo pills. Study visits include a screening visit to determine eligibility and visits at baseline, 8 weeks, and 12 weeks. Study procedures comprise behavioral, neuroimaging, and endocrine assessments.
Using neuroimaging, the investigator will study the effects of estrogen on mood and brain function in perimenopausal women with depression.
This is a study of how local estrogen treatment affects the microbiome of the vagina and bladder in postmenopausal women experiencing symptoms as part of "Genitourinary Syndrome of Menopause." The goal is to understand more about the underlying microbial changes occurring in menopause and whether these are reversible with estrogen.
The specific aim of this protocol is to determine whether vaginal estrogen is an effective treatment for asymptomatic microscopic hematuria in postmenopausal women. The investigators hypothesize that women who use vaginal estrogen for three months will be more likely to have resolution of their asymptomatic microscopic hematuria compared with women who do not use vaginal estrogen.
Women in the menopause transition ('perimenopause') are exposed to extreme hormone variability, tend to experience a unique set of severe stressors (e.g., divorce, death of loved ones), and are also at substantially elevated risk to suffer from mood and anxiety disorders. The purpose of this research is to understand the mechanisms by which variability in estradiol (E2) is associated with the symptoms of anxiety and anhedonia (loss of interest and pleasure - a common symptom of depression). By stabilizing E2 variability with a hormonal manipulation, this research will determine the degree to which the E2 variability (or E2 levels) plays a causal role in perimenopausal anxiety and anhedonia symptoms and whether it does so by affecting biological responses to stress.
The investigators will establish a platform at Dartmouth-Hitchcock Medical Center to generate novel models of estrogen receptor alpha-positive (ER+), human epidermal growth factor receptor 2-negative (HER2-) breast cancer, which will be used for research studies to develop novel treatment strategies and dissect signaling pathways underlying drug sensitivity and resistance.
Decreased bone strength is a common and serious medical problem present in many women with anorexia nervosa. Women with decreased bone strength are more likely to suffer broken bones than women with normal bone strength. This study will investigate whether the use of transdermal estrogen can improve bone mineral density (BMD) and bone microarchitecture in women with anorexia nervosa anorexia nervosa when used for 6 months.
This is a study to determine how vaginal estrogen cream given for several weeks before pelvic reconstructive therapy will effect elastic fiber assembly in the muscularis layer of the vaginal wall. Postmenopausal women with at least Stage 2 pelvic organ prolapse will receive either estrogen vaginal cream or placebo cream 6-8 weeks prior to reconstructive surgery. At time of surgery, full thickness biopsies will be obtained from a standardized location at the top of vagina. The investigators will measure the thickness of the vaginal muscularis, elastic fiber number and morphology, and analyze if elastic fiber synthesis or degradation is affected by estrogen therapy. The results will provide important data to support a larger clinical trial to determine if preoperative and maintenance estrogen therapy alter long-term success rates of pelvic reconstructive surgery for pelvic organ prolapse.
The aim of the current study is to test whether the effect of estrogen on insulin metabolism depends on the timing of treatment relative to when a woman went through menopause. The investigators hypothesize that estrogen will improve insulin sensitivity in early postmenopausal women, but decrease insulin sensitivity in late postmenopausal women.
This study will focus on how estrogen affects parts of the brain associated with memory and how the effect of estrogen is altered with aging in postmenopausal women.
The purpose of this study is to determine the effects of oral estradiol and soy phytoestrogens on anxiety, stress responsivity and cognition in perimenopausal women.
This study will test a dietary supplement, indole-3-carbinol, for improving the estrogen profile in women across a range of body mass index.
Bioidentical compounded hormone therapy (BCHT) is considered a 'safer' option to the conventional hormones (HT) by its proponents. However, there is limited research data to support their claims. Our group at the Women's Health Clinic, in collaboration with the Departments of Endocrinology, Complementary Medicine and Laboratory Medicine, is interested in developing a line of research to test the safety and efficacy of BCHT. In the present study, we aim to find the dose of BCHT that is bioequivalent to conventional HT, in a randomized, blinded, four-arm, phase I clinical trial. We will estimate the levels of estrone (E1), estradiol (E2) and estriol (E3) at baseline and at steady state with two-weeks of administration of three commonly used doses of bioidentical compounded estrogen cream (Biest) and a standard dose conventional estrogen patch (Vivelle-Dot). E1, E2, and E3 values will be summarized using point estimates and 95% confidence intervals. Two-sample t-test will be used to compare each Biest group to the Vivelle-Dot group. Healthy postmenopausal women, with no contraindications for hormone use, who are able to fully understand and participate in the trial, will be enrolled. We will utilize the resources of Mayo CRU to conduct this study.
Estrogen is necessary for feminization during puberty and to decrease bone resorption, the latter critical for the achievement of peak bone mass and normal bone health in the female. The practicing pediatric endocrinologist often faces the dilemma of how to best feminize girls with hypogonadism (lack of estrogen), manifested as delayed or arrested puberty, due to disorders of the brain or the ovaries. We propose a series of studies to address which type, dose, and route of delivery of estrogen are suitable choices in feminizing and sustaining estrogen concentrations in adolescent girls with Turner syndrome. To accomplish this we will study girls/young woman between the ages of 13 to 20 with Turner Syndrome in 2 protocols. In Protocol # 1 we will study 24 girls with TS, they will receive 3 different estrogen preparations, either by mouth or via a patch for a total of 6 weeks. They will come to the clinical research center for blood draws after 2 wks of taking the estrogen. With this study, we hope to learn how the body responds to estrogen differently, depending on the form estrogen is given and how high, estrogen levels gets in the blood in these girls with Turner Syndrome. We will be comparing these patients estrogen levels to girls that menstruate normally and do not have Turner Syndrome. In Protocol #2, 40 patients with TS will be recruited; these patients will take estrogen for 1 year, either by mouth or via a patch. Patients will come to the lab for blood drawn in 7 occasions and we will measure estrogen levels as well as other hormones and lipid levels. We will also perform a Dual-energy X-ray absorptiometry (DXA) study (like an X ray) to assess body composition and bone mineralization. We will adjust doses based on the estrogen levels we find. With this study we hope to learn how estrogen affects body composition, i.e., the amount of fat vs. muscle, and how different forms of estrogen affect blood cholesterol and other hormones. This study will allow us to understand better how to best replace young woman with Turner Syndrome with estrogen.
Estrogen and progesterone are two main female sex hormones. When a woman goes through menopause, the body's production of estrogen and progesterone significantly decreases. Recent studies have shown that the breakdown of fatty acids in cardiac muscle is important in maintaining a healthy heart, and that estrogen may enhance this process. Also, cardiovascular disease (CVD) occurs more frequently in postmenopausal women than in premenopausal women. This study will determine in postmenopausal women whether estrogen increases the heart's ability to use fats as energy and whether progesterone decreases this effect.
The purpose of the study is to study the effects of aging, estrogen and progesterone on the brain. Specifically, we want to look at how the hypothalamus and pituitary (two small glands in the brain) respond to estrogen. The pituitary gland is controlled by the hypothalamus. The hypothalamus secretes GnRH (Gonadotropin-Releasing Hormone) that signals the pituitary to secrete the reproductive hormones, LH (Luteinizing Hormone) and FSH (Follicle Stimulating Hormone). These hormones act on the ovaries and signal the ovaries to produce estrogen and progesterone. Estrogen in the bloodstream then acts on the brain to modulate this system with changes in LH and FSH. Early changes associated with low levels of estrogen are inhibitory (estrogen negative feedback) while higher levels of estrogen (such as those present when a follicle in the ovary is ready to ovulate) stimulate LH to cause ovulation (positive feedback). This study will determine: 1) hypothalamic and pituitary levels of glucose uptake (as a measure of brain metabolic activity) at baseline and in association with estrogen negative feedback on LH (24 hr) and estrogen positive feedback on LH (72 hr); and 2) the effect of aging on estrogen feedback on LH, assessing negative feedback (nadir \~ 24 hr) and positive feedback (peak between 72 and 96 hr).
The purpose of this study is to study the effects of aging and estrogen on the brain. Specifically, this study will examine how the hypothalamus signals the pituitary gland to secrete reproductive hormones and how that changes with aging.
The purpose of the study is to determine whether hormone replacement therapy in post menopausal women with coronary artery disease prevents future heart attacks or death from coronary heart disease.
During perimenopause (the time just prior to menopause), women often notice many biological, psychological, and social changes. In particular, some women experience depressive symptoms during perimenopause that are severe enough to warrant antidepressant medication. Whether or not women with perimenopausal depression respond to antidepressant medication may depend on the level of estrogen in their blood. This study will investigate whether estrogen will help women who only partially respond to antidepressant medications, as well as examine how different doses of estrogen may affect individuals differently.
The purpose of this research study is to learn about the effects of two drugs when they are given together. The names of the drugs are raloxifene and exemestane. Raloxifene is a drug that is related to estrogen. In the liver and bone, it acts like estrogen. In the breast and uterus it acts like an anti-estrogen. It has been used in postmenopausal women to prevent a disease called osteoporosis. This is a disease that decreases bone strength over many years and may finally lead to bone fractures. In a group of women who were taking the drug, it also seemed to decrease the chances of breast cancer and possibly endometrial cancer (cancer of the uterus). Therefore, we want to study it further to see if it prevents breast cancer. We also want to find out if it may be even better in preventing breast cancer if it is given with another drug. The other drug in this trial is exemestane. Exemestane is a type of drug that works to decrease estrogen levels in postmenopausal women. This type of drug is used in women for the treatment of breast cancer. Before we can decide if the two drugs combined are better for preventing breast cancer, we must first test these drugs together to make sure that they are safe. This safety testing is the purpose of this trial.
The study attempts to evaluate if the way of administering estrogen, the principal female hormone, via patches or orally, affects the way estrogen works in girls with Turner Syndrome. These are girls who are very short and whose ovaries do not work. We will examine changes bone, protein and fat metabolism under the influence of estrogen delivered by a patch trough the skin vs estrogen taken orally. These studies are conducted while the girls are taking GH therapy.
The purpose of this study is to determine the effects of estrogen replacement therapy (ERT) on the progression of early atherosclerosis in healthy postmenopausal women without preexisting cardiovascular disease (CVD).
The purpose of this study is to investigate the way by which estrogen improves the appearance of sun damaged human skin. Accumulating evidence suggests that estrogen, taken by post menopausal women, may cause skin to look younger as a consequence of reduced wrinkles. Collagen is the most abundant protein in human skin and gives skin its strength and shape. Recent data indicate that short-term topical estrogen (17-beta estradiol) treatment increases collagen production in sun damaged skin. This study will compare the molecular and microscopic effects from topical 17-beta estradiol (E2) when applied to the skin for a short-term duration. It is anticipated that the new knowledge from this study will enable development of new ways to improve the function of aged skin.
This study evaluates the effects on mood when stopping estrogen replacement therapy. The purpose of this study is to investigate the effects of estrogen levels on perimenopausal depression. This study will examine short-term withdrawal of estrogen in women whose mood had improved with estrogen therapy. Perimenopause-related mood disorders cause significant distress in a large number of women. Evidence suggests that estradiol may have beneficial effects in women with perimenopausal depression. However, the effect of declining estradiol secretion during perimenopause has not been fully examined. Peri- and post-menopausal women who experience a remission of perimenopause-related depression symptoms while on estrogen therapy and a control group of healthy volunteers on hormone replacement therapy (HRT) will be switched from their current form of HRT to estradiol for a 3-week period; volunteers will also complete symptom ratings to confirm the absence of mood symptoms. Participants will then be randomly assigned to either continue estradiol or take a placebo (an inactive pill) for an additional 3 weeks. Mood ratings will be used to determine response to estradiol withdrawal. ...
The development of the brain in females is a result of a combination of factors. During puberty estrogen plays a role in influencing brain development. Cultural and environmental factors also play a role in the development of the brain. Female patients with Turner syndrome lack the ability to produce estrogen due to undeveloped ovaries. Therefore, Turner syndrome is the perfect condition to study how estrogen (or the lack of estrogen) influences a person's behavior and thinking. This study will compare cognitive differences (visual motor skills, visual-spatial, psychosocial behavior, and visual memory) of patients with Turner syndrome to normal patient controls. Researchers will use the Weschler Intelligence Scale for Children-Revised (WISC-R) along with other tests and scales to measure different aspects of the patient's cognitive ability. In addition the study will review patients with Turner syndrome who previously received estrogen replacement as infants and children in a related research study. Researchers hope to demonstrate that estrogen replacement will improve cognition and behavior in girls with Turner syndrome.