4 Clinical Trials for Ovarian Function
The menopause transition is associated with a decrease in artery health and an increased risk for weight gain in storing fat in the stomach area which may increase the risk for heart disease. The purpose of this research is to study how the decrease in estrogen at menopause changes artery health and fat gain, and risk of disease in women as they age. The first aim in this study will determine whether short term and long term low estrogen levels in premenopausal women decreases artery function and whether this is related to an increase in fat in the stomach area. The second aim will determine whether the changes in artery health and body fat are related to changes in a pathway that breaks down an important amino acid called tryptophan. This pathway is thought to play a role in regulating the aging process. Therefore, the investigators will determine whether the decrease in artery health and the increase in body fat in the stomach region with low estrogen is related to changes in this pathway in the blood, in vascular cells and fat tissue. Because estrogen levels fluctuate in premenopausal women, the investigators will use an approach (intervention) that controls estrogen levels to address these aims. The investigators will use a medication that is typically used to treat endometriosis or uterine fibroids to lower estrogen levels and an estrogen patch to increase estrogen in some women. Some women will receive a patch that has no estrogen (called a placebo patch). The intervention period will be 20 weeks. The study will provide us with new knowledge on how low estrogen with menopause affects artery health and fat gain estrogen.
Consenting women with evidence of poor ovarian reserve will be randomly assigned to treatment with either Platelet Rich Plasma (PRP) or Platelet Poor Plasma (PPP).
Background: Turner Syndrome, galactosemia, and premature ovarian insufficiency are all conditions that may make it very hard or impossible for a person to become pregnant and have their own child. Researchers want to learn more about why this happens and if freezing Gonadal tissue allows for fertility preservation. Objective: To find out why people with certain conditions have can have premature ovarian insufficiency (POI or early menopause) and individuals with variations in sex characteristics have trouble getting pregnant and if freezing the gonads tissue from them will help to have their own child in the future. Eligibility: Individuals aged 2-12 who have Turner Syndrome or galactosemia. Also, females aged 13-21 with premature ovarian insufficiency and Individuals with variations in sex characteristics Design: Participants will be screened with a medical history. Participants may have a physical exam and blood tests. Their body measurements may be taken. These include weight, height, arm span, skin fold, and sitting height. They may fill out surveys about their quality of life, body image, and health. Participants may have a transabdominal pelvic ultrasound. A probe will be placed on their belly and will take pictures of the organs in the pelvis. They may have a transvaginal pelvic ultrasound performed while asleep in the operating room if needed. Participants may have surgery to remove an gonads and skin biopsy. The removed tissue will be frozen and stored. The tissue will have to be stored for many years. NIH will pay to store the tissue for 1 year. After that, participants will have to pay for storage. A piece of the gonads (no more than 20%) will be used for research Travel, lodging and meals for participants traveling greater than 50 miles will be reimbursed based off the government rate. Local participants will not be reimbursed. Participants will have a checkup 6 weeks after surgery one or more follow-up visits 6-18 months after surgery. They may have phone follow-up every 12-24 months after surgery. Participation will last 30 years.
This clinical trial compares the effect of an automated personalized physical activity intervention supported by wearable technology to standard of care on physical activity levels and quality of life in patients with stage II- IV ovarian, primary peritoneal, fallopian tube cancer or endometrial cancer that is newly diagnosed. Physical activity is a modifiable risk factor for the prevention and treatment of many diseases. In fact, increased levels of physical activity have been shown to decrease the risk of some cancers as well as increase overall survival in some cancers. Currently, standard of care guidelines include participation in at least 150 minutes of moderate exercise weekly. An automated personalized physical activity intervention may increase physical activity, enhance quality of life, and improve physical function and daily living activities compared to standard recommendations in patients with stage II-IV ovarian, primary peritoneal, fallopian tube or newly diagnosed endometrial cancer. This trial also evaluates the impact of physical activity on the gut microbiome and immune function. The microbiome is the collection of tiny organisms, like bacteria, that live in and on the body, especially places like the gut. These microorganisms play an important role in health. Information gathered from this study may help understand how the gut microbiome and physical activity influences the immune system in patients with stage II-IV ovarian, primary peritoneal, fallopian tube or newly diagnosed endometrial cancer.