View clinical trials related to Menopause, Premature.
Filter by:This pilot study will observe the progression of newly diagnosed POI patients physical and psychology outcomes after initiating standard of care HRT treatment in comparison to healthy female control participants' physical and psychology health over 24 months.
Premature ovarian failure is a loss of normal function before age 40, leading to infertility and hypoestrogenism. This study will involve only adult women with a diagnosis of POI. Participants will receive injections of autologous PRP in one randomly selected ovary.
This study aims to recover ovarian function in POF/POI patients. With this pueprose we designed a study protocol including two arms: ASCOT arm, were patients receive the stem cell mobilization treatment with Granulocyte colony stimulating factor (G-CSF) followed by apheresis and ovarian artery catheterism to selectively infuse the stem cells into the ovary and the G-CSF arm including patients that receive the mobilization treatment but not the ovarian artery catheterism to selectively infuse the cells into the ovary.
Premature ovarian insufficiency (POI) is a clinical syndrome defined by loss of ovarian activity before the age of 40 years. The POI guideline development group of ESHRE recommends the following diagnostic criteria: oligo/ amenorrhea for at least 4 months and an elevated follicle stimulating hormone (FSH) level >25 mIU/mL on two occasion >4 weeks apart. Some clinicians and researchers proposed that POI was a progressive disease and there were three stages of POI: occult POI, biochemical POI, overt POI. However, there is lack of reliable indicators to assess the different stages of POI. The present study is to explore the change of menstruation condition, basal follicle-stimulating hormone, anti-müllerian hormone and antral follicle count during the development of POI, and whether those marks can assess the different stages of POI.
The study aims to establishing the diagnosis standard of POI and analyzing the risk factors in Chinese women.
Chemotherapy and radiation for cancer and other conditions can cause infertility. Several centers around the world are cryopreserving ovarian tissue from these patients though an experimental protocol, including the Fertility Preservation Program in Pittsburgh (protocol PRO08050491). The objective of this study is to study the efficacy and safety of autologous tissue transplantation in patients diagnosed with primary ovarian insufficiency after chemotherapy and/or radiation treatments.
Reduced ovarian reserve and the consequent poor ovarian response are very recurent in infertile patients, indeed a percentage of 10%-24% of couples addressed to infertility program may be classified as Poor Ovarian Responder (POR). Objective: To evaluate whether the repeated luteal phase stimulation (Second Step) permits a significantly higher number of oocytes retrieved in POR when compared to conventional follicular stimulation. Interventions: The follicular phase stimulation is conduced according to a standardized Antagonist protocol or Short protocol (with GnRH agonist) using recombinant or urinary gonadotropins (starting dose 300 or 450 UI) or a long lasting recombinant gonadotropin (Corifollitropin alfa 150 mcg). Two - six days after the first oocyte retrieval a second gonadotropin stimulation will be started with a GnRH antagonist protocol (the stimulation will be started with 250 UI of human menopausal gonadotropin (hMG) and a GnRH antagonist (GnRH-an) 0,25 mg\die will be administered when the leading follicle is ≥ 14 mm until hCG (human chorionic gonadotropin) criteria are met. When at least two follicles had reached 17-18 mm in diameter, ovulation will be triggered with a single subcutaneous bolus of urinary human chorionic gonadotropin (10.000 UI ) and oocyte retrieval will be performed after 35 hours. Two or Three months after the second oocyte retrieval the Embryo transfer (ET) will be performed after endometrial preparation with Estradiol Valerate and intramuscular Progesterone.
genetic screening and etiological analysis was conducted on patients with ovarian insufficiency and decline in ovarian reserve. All patients were enrolled in the IVF-treated and non-IVF-treated groups, followed up for long-term treatment outcomes and genomic screening.
25 women with Premature Ovarian Failure who attended Fayoum university hospital gynecology outpatient clinic (case group) and another group of 25 women with normal ovarian function (control group). *Pelvic laparoscopy and ovarian biopsy will be done ovarian biopsy preparation For assessment of autoimmune oophoritis, sections were immunostained with anti-LCA (CD45) monoclonal antibody
Rationale: Infertility due is a major concern for girls with Turner syndrome (TS) and their parents. Physicians are often asked about possible options to preserve their fertility. However, despite some experimental case reports, clear evidence for fertility preservation in these girls is lacking and many questions remain. Without evidence on the effectiveness of fertility preservation it cannot routinely be offered to girls with TS. Objective: To investigate the occurrence of live birth in women with TS after ovarian tissue cryopreservation in childhood followed by auto transplantation in adulthood. Study design: A national multicentre exploratory intervention study Study population: Girls diagnosed with Turner Syndrome, aged 2-18 years. Intervention: Ovarian tissue cryopreservation in childhood followed by auto transplantation in adulthood. In order to obtain the ovarian tissue for cryopreservation, all girls must undergo a laparoscopy under general anaesthesia which will be performed in academic/university clinics with paediatric surgery. During the laparoscopic intervention, a unilateral oophorectomy will be performed, thereby leaving the other ovary intact for hormone production, ovulation, spontaneous pregnancies and as an auto transplantation site for cryopreserved-thawed ovarian cortical tissue later on. Furthermore, a small sample of the ovarian cortex will be used to assess the oocyte quality and genetics (e.g. the presence of germ line mosaicism). Oocytes will be karyotyped by using Fluorescence in situ hybridization (FISH). Karyotypic and hormonal data will be collected once at the yearly clinical visit at the paediatric-endocrinologist. Therefore, a buccal swab and one extra blood sample will be taken and evaluated during the routine laboratory evaluation. In the future, auto transplantation of frozen-thawed ovarian cortex strips will be performed.