View clinical trials related to Estrogen Excess.
Filter by:This cross-sectional comparison and prospective cohort design study will investigate differences in calcium metabolism, biochemical markers of bone and reproductive health, musculoskeletal health, and iron status between women using different hormonal contraceptives (combined oral contraceptive pill (COCP), hormonal implant, hormonal intra-uterine system (IUS), hormonal contraceptive injection, and eumenorrheic non-hormonal contraceptive users). The same outcomes will also be examined across a menstrual cycle in the eumenorrheic non-hormonal contraceptive users. The study will test the following hypotheses: Hormonal contraceptive use 1. Biochemical markers of bone resorption and formation and ratio of urinary 44Ca:42Ca will be higher in the implant and injection groups compared with IUS (which exerts localised effects) and non-HC users (ovulatory phase), and lower in COCP compared with non-HC users; 2. Oestradiol and progesterone will be lower in hormonal contraceptive users compared with non-HC users during the ovulatory phase; 3. Bone macro- and microstructure, muscle strength, and tissue properties are different in hormonal contraceptive users compared with non-HC users; 4. Calcium and bone metabolism, reproductive hormones and musculoskeletal function are different between the pill phase and non-pill phase of COCP use. Menstrual cycle phase 1. Calcium and bone metabolism are lower during the ovulatory phase compared with menses, mid follicular and mid luteal phases. 2. Muscle strength and tissue properties are different across the menstrual cycle in non-HC users.
Chronic Venous Disease (CVD) is a very common problem affecting western adult population. To date the pathophysiology of CVD development encloses several theories such as the role of extracellular matrix (ECM) components alterations, the alteration of Matrix Metalloproteinases (MMPs) and other related molecules, the endothelial dysfunction, and several genetic factors but none of these could properly explain its genesis. Estrogen Receptors may be involved in CDV pathogenesis. Endogenous estrogens are important regulators of vascular homeostasis and they act mainly via three different ERs which are expressed in the cardiovascular system: ERα, ERβ, and a G protein-coupled estrogen receptor termed GPER. of this study is to explore the expression of estrogen receptors in vessel wall of varicose veins through the entire clinical spectrum of CVD.