View clinical trials related to Polycystic Ovary Syndrome (PCOS).
Filter by:The purpose of this study is to determine whether micronized trans-resveratrol improves clinical (excessive hair, menstrual cycle), endocrine (androgens)and metabolic (lipids, markers of systemic inflammation) in women with polycystic ovary syndrome (PCOS).
The purpose of this study is to determine if changes in blood vessel health lead to the menstrual irregularities that women with PCOS experience. This research study will help determine if women with PCOS have early changes in their blood vessels called "endothelial dysfunction," and if the number of progenitor cells (cells that in a healthy person repair blood vessel damage) are related to these blood vessel changes. To do so, we will compare ultrasound (soundwave) pictures of a large blood vessel in the arm and the results of blood tests between women with PCOS and other healthy women with normal menstrual periods.
Girls with high levels of the male hormone testosterone often develop polycystic ovary syndrome (PCOS) as adults. Women with PCOS often have irregular menstrual periods, excess facial and body hair, and weight gain. Women with PCOS also have difficulty becoming pregnant. Some, girls with high levels of male hormone will develop normal hormone levels as they grow up. Most girls continue to have high levels of male hormone as adults. In addition, girls with elevated levels of male hormones often have lower fertility rates in adulthood. In this study the investigators will aim to discover the effect of 7 days of estrogen and progesterone on GnRH pulses in girls and women with the goal of understanding how and why some girls and women have higher levels of male hormone and the causes of PCOS. If investigators understand the causes of these disorders, they may be able to better treat them and perhaps even learn how to prevent the development of PCOS.
The use of metformin pre-treatment and co-administration was recently proposed in infertile women affected by polycystic ovary syndrome (PCOS) treated with gonadotropins. Data from meta-analyses showed that metformin administration significantly reduced the stimulation length and the total dose of gonadotropins used in PCOS women undergoing gonadotropins stimulation for non in-vitro fertilization (IVF) cycles. On the other hand, in IVF cycles metformin was demonstrated to significantly reduce the ovarian hyperstimulation syndrome (OHSS) rate in infertile patients with PCOS treated with gonadotropins. The metformin regulating effect on the ovarian response was also observed in a randomized controlled trial (RCT) on young non-obese insulin-resistant women with PCOS receiving gonadotropins for mono-ovulation induction. In particular, metformin increased the mono-ovulatory cycles, the duration of stimulation and the amount of gonadotropins used, while it reduced the number of dominant follicles and the estradiol (E2) levels. The aim of the present study was to evaluate the effect of metformin administration in high responder PCOS patients undergoing gonadotropins ovarian stimulation for IVF cycles.
Increased plasma triglyceride concentration is a common feature of the metabolic abnormalities associated with obesity and a major risk factor for cardiovascular disease. Obesity is a major risk factor for two conditions that appear to be increasing in prevalence in women: the polycystic ovary syndrome (PCOS) and sleep disordered breathing. PCOS affects 5-8% of women. Sleep disordered breathing affects up to 10% of women. Obstructive sleep apnea (OSA) is the most common cause for sleep disordered breathing and particularly prevalent in obese women with PCOS (~50%). Both PCOS and OSA augment the increase in plasma triglyceride (TG) concentration associated with obesity, and the effects of PCOS and OSA on plasma TG concentration appear to be additive. The mechanisms responsible for the adverse effects on plasma TG metabolism are not known. The primary goal of this project, therefore, is to determine the mechanisms responsible for the increase in plasma TG concentration in obese women with PCOS and OSA. It is our general hypothesis that alterations in the hormonal milieu that are characteristic of these two conditions are, at least in part, responsible for the increase in plasma TG concentration in obese women with the conditions. Furthermore, we hypothesize that the hormonal aberrations characteristic of the two conditions are particularly harmful to obese, compared with lean, women. The effects of PCOS on skeletal muscle protein metabolism are also not known. However, sex hormones are thought to be important regulators of muscle protein turnover suggesting that muscle protein metabolism is likely to be affected by PCOS. We will examine this by determining the effect of individual sex hormones on muscle protein metabolism and hypothesize that testosterone administration will stimulate muscle protein metabolism while estrogen and progesterone administration will inhibit muscle protein metabolism.