View clinical trials related to Infertility.
Filter by:In vitro maturation (IVM) is a technique for obtaining potentially fertilizable oocytes from immature oocytes. An oocyte must be mature both nuclearly and cytoplasmically in order to be competent in the reproductive process. Nuclear maturation involves an oocyte in metaphase II stage and is easily evaluated for its morphology. However, cytoplasmic maturation can only be evaluated by in vitro fertilization of that oocyte. A mature nuclear and cytoplasmic oocyte is the one capable of producing a viable embryo. This study aims to optimize the in vitro maturation (IVM) technique to achieve nuclear mature oocytes, i.e., to mature the oocytes up to the metaphase II stage. In addition, an artificial oocyte activation (AOA) will be carried out to check the cytoplasmic maturation of the oocytes, avoiding the generation of potentially viable embryos. This study corresponds to a second phase of the pilot study for the development of this technique in our IVF laboratory. We will use all we have learned in the first phase, as well as the experience acquired, to advance in the optimization of this protocol. The correct functioning of this IVM technique would mean a reduction in the costs of ovarian stimulation treatments, as lower doses and shorter stimulation times are required, which implies lower risks for women derived from the medication and less stress for them.
Infertility is defined as the inability of a couple to get pregnant after one year of regular and unprotected sexual intercourse. Although it is not a life-threatening condition, infertile couple often suffer from mental health issues, including depression and low self-esteem that may impact their Quality of Life (QoL). Male factors contribute to a half of the underlying causes of infertility and semen analysis play a vital role in investigation of the fertility status of the male partners. By performing semen analysis, we could predict the chance of a couple to conceive. Male infertility treatments include surgery, hormonal treatment and also assisted reproductive techniques, such as intra uterine insemination and in vitro fertilization that may lead to a financial burden for infertile couple. For facing this issue, traditional or herbal medicine and antioxidants are often be used as an alternative way by many infertile couples. One of the traditional medicines used in Indonesia and other Southeast-Asia Countries for infertility cases is Eurycoma longifolia or Pasak Bumi. Based on previous studies in animals, Eurycoma longifolia could improve Testosterone and may improve sperm parameters, even though there are very few studies in human including in Indonesia. Antioxidants (multivitamins) are also routinely given to the infertile men as they could protect sperm damages from oxidative stress and may in advanced improve sperm quantity and quality. Our study aims to compare the effect of Eurycoma longifolia, Multivitamins and the combination on sperm parameters and also reproductive hormones of the infertile males.
The present research project aims to study the DNAm mechanisms underlying the reduction of fertility due to the progressive depletion of oocyte quality. Specifically, our project aims to build an epigenetic clock for MGCs by using outcomes that are certainly related to female fertility. The validation of such findings will be carried out on peripheral blood in order to guarantee its non-invasiveness and allow for any clinical transferability. In order to identify a blood epigenetic signature able to predict female infertility, we planned to explore the problem from different points of view by conducting several studies in different settings.
Women´s period comprises different hormonal stages, being one of them the stage for maximum receptivity and proper embryo implantation. This stage is named window of implantation (WOI), and is characterized by a specific molecular pattern than can be assessed by the Endometrial Receptivity Analysis (ERA® test), developed by Igenomix. Determining the WOI allows to schedule a personalized embryo transfer (pET) when the endometrium is most receptive for the implantation. The main objective of the present study is to improve our knowledge on the endometrial factor in an infertile population with previous implantation failures. To do so, a diagnosis of the endometrial receptivity to determine the WOI (ERA®) and the microbiome (EMMA®) of each participant will be performed, assessing its impact on deferred embryo transfers in terms of reproductive outcomes. Participants will follow their previously programmed IVF/ICSI treatment and, only when one embryo with no major anomalies is reported by PGT-A (Preimplantation Genetic Testing for Aneuploidies), they will be asked to attend to the specific study visit for endometrial fluid and biopsy samples collection. These samples will be used to determine the patient's WOI (ERA®) and endometrial microbiome (EMMA®). The results of neither of the tests will be disclosed to the patient or the doctor, being only used for the study purpose. After this visit, the patient will follow the pre-established schedule for an embryo transfer and pregnancy assessment.
The bioavailability study is intended to evaluate the pharmacokinetic (PK) characteristics and the bioavailability of the two formulations in humans before and after the change of production site, in order to assess the possible impact of the site change on the pharmacokinetic characteristics of the drug and to clarify whether the two formulations are comparable before and after the change.
To investigate the efficacy and safety of a single injection of GenSci094 to induce multi-follicular development for controlled ovarian stimulation using daily recombinant FSH (recFSH) as a reference. The primary hypothesis is that a single injection of GenSci094 is non-inferior to daily treatment with recFSH in initiating multi-follicular growth.
The aim of the project is identify new biomarkers and/or prognostic factors in order to develop personalized strategies to prevent the onset of tumor and/or non tumor comorbidity in infertile men.
Patients suffering from infertility may seek assisted conception treatment. In a full treatment cycle, the sperm and eggs (gametes) from the intended parents will be looked after by skilled laboratory staff (embryologists) who will rely on manual laboratory processes to achieve fertilization. The most commonly employed method to achieve fertilization is intracytoplasmic sperm injection (ICSI), a treatment that involves the injection of a single sperm cell directly inside an egg. The embryos so obtained are then be maintained in an appropriate environment (incubator) for several days before deciding whether they can be immediately used to attempt to establish a pregnancy (embryo transfer), or should be frozen in preparation for a future treatment (cryopreservation). The laboratory steps required to complete a full assisted conception treatment (from sperm and egg retrieval, to fertilization, and then to embryo transfer and/or cryopreservation) are often manual and time-consuming, and thus the success of the treatment is highly dependent on the skill of individual staff and outcomes can be affected by fatigue, stress, and workload. The combination of robotics and artificial intelligence (AI) has the potential to provide improvements to, and standardize, the fertility laboratory, but such integration has not been achieved routinely. Other medical fields, such as regenerative medicine, have long benefited from the implementation of robotic solutions; however, modern automation has yet to find its way into the fertility laboratory. The goal for Conceivable Life Sciences (the study sponsor) is the delivery of a suite of solutions that, collectively, will allow a fully autonomous ICSI cycle to take place (from sperm/egg preparation, to sperm injection, to embryo culture and cryopreservation) in an effort to reduce costs, assist laboratory staff, and possibly, improve outcomes. The purpose of this study is to deliver a core aspect of this project: the digital control and individual automation of all key steps of a complete laboratory workflow. The data generated in this study will help the future development of these automated systems. Patients undergoing an ICSI treatment may be recruited in this study. Their gametes (sperm and/or eggs) may be distributed across two groups (test and control) and undergo one or more elements of an automated full assisted conception workflow (for the test group) or a standard assisted conception workflow (for the control group). Robotic automation may include any of the following steps: robotic sperm preparation, robotic oocyte selection and denudation, robotic sperm injection, automated embryo culture, and automated cryopreservation. The resulting embryos may be employed for embryo transfer. The main hypothesis of this study is that the use of robotic assistants as part of a full assisted conception cycle may improve laboratory workflows without reducing the treatment success rates.
The goal of this randomized clinical trial is to compare frozen embryo transfer protocols in patients undergoing a second frozen embryo transfer (FET) after a unsuccessful first programmed FET cycle as a possible treatment for people undergoing infertility treatment. The purpose of this research study is to: - Determine if there is a difference between FET protocols in patients who require a second FET cycle. - Investigate if switching the FET protocol after a failed programmed cycle is beneficial for patients undergoing a second FET cycle. - Examine pregnancy outcomes including obstetrical and neonatal outcomes (if applicable) - Obtain uterine flexibility/stiffness measurements via transvaginal ultrasound prior to the embryo transfer procedure. This is called shear wave elastography. Participants will be randomized in their second FET transfer attempt to either another programmed protocol or a modified natural protocol.
The ReceptIVFity acts as a timing-tool for prediction of optimal pregnancy chances and provides insight into the patient's current (two months after sampling) success rate of an IVF/IVF-ICSI treatment. Benefits of physician decision treatment in case of an unfavorable vaginal profile and a low chance of achieving a pregnancy include reducing unnecessary morbidity and treatment cycles, stress and disappointment, while increasing efficacy of the treatment and lowering the costs needed to achieve a pregnancy. The goal of this prospective, clinical non-invasive randomized controlled study, with an additional observational study arm (for women of non-European origin) in naïve IVF or IVF/ICSI patients is to evaluate the efficiency of Shared Decision Making compared to Physician Decision in terms of 1. the success probability of an IVF cycle, 2. the proportion of women with a successful pregnancy 3. the number of unsuccessful IVF cycles. Randomization component Women of European origin will be randomized 1:1 to either the shared decision group or the physician decision group. All women of European origin may undergo one to three cycles of IVF/IVF-ICSI reimbursed by the health insurance. The follow-up ends after the outcome of the last of these cycles has been determined. The desired outcome of the IVF or IVF/ICSI treatment is a successful pregnancy, i.e., a pregnancy with a heart-beat at 12 weeks of gestation. Observational component Women of non-European origin are invited to take part in an observational component of this study. Without further evaluation of the results of their vaginal microbiome, they will continue with the IVF/IVF-ICSI cycle. Women eligible for participation are naïve patients and the follow-up ends after the outcome of the first IVF/IVF-ICSI cycle has been determined.