View clinical trials related to Subfertility.
Filter by:During assisted reproductive technology treatment, embryo selection is an important process that may affect the clinical pregnancy rate. Many assisted reproductive technology units over the world have tried different approaches to increase the clinical pregnancy rate. Conventionally, the morphology of the embryo is assessed by the embryologist with naked eyes only. Nowadays, artificial intelligence (AI) has been used to assist in morphological assessment of the embryo. Our pilot study showed that the AI-enhanced morphokinetic (MK) analysis increased the accuracy in embryo selection by ~9%, while the detection rate for abnormal chromosomes in embryo has also been increased by Raman spectroscopy (RS) analysis. The combined MK-RS analysis will be able to complete embryo assessment within 5-6 days after fertilization. This method needs shorter time and is at lower cost when compared to invasive preimplantation genetic testing for aneuploidies (PGT-A). In this study, we have combined the following non-invasive techniques to assist in embryo screening. 1. Using time-lapse imaging (i.e. images of embryo being taken every 10 minutes inside the incubator) with AI)-enhanced MK analysis to assess the entire morphological changes of the embryo. 2. As the embryo releases metabolites during its growth, the spent culture medium will be collected after culture of the embryo and then be used for RS analysis, which is a kind of metabolomics-based non-invasive PGT-A, for screening chromosomal abnormalities of the embryo. This study will include two phases. In Phase I, it is a retrospective part. We will collect data to train the convolutional neural network (CNN)-enhanced MK with RS method on embryo selection, leading to the integrated approach (MK-RS). In Phase II, it is a randomized controlled trial and participants will be randomised into 2 groups. For the experimental group, embryo selection will be based on the MK-RS method, whereas embryo selection for the control group will rely on the traditional embryo assessment results alone. Then we will assess the clinical pregnancy rate and evaluate the efficacy of our approach finally. Patients who receive in vitro fertilisation (IVF)/ intracytoplasmic sperm injection (ICSI) treatment from The Assisted Reproductive Technology (ART) Unit of The Chinese University of Hong Kong, Prince of Wales Hospital will be recruited.
With this study, the investigators want to investigate the microbiome and human papilloma virus (HPV) status of couples with subfertility. The investigators want to gain information about association of female and male microbiome and its impact on fertility. HPV prevalence is high, and its impact on fertility has not been studied intensively. The investigators want to find out whether there is an association between HPV status and subfertility, vaginal and seminal microbiome and HPV status and the prevalence among our subfertile couples. As part of this study, the investigators will perform a randomized placebo controlled double blind pilot study to investigate the association between altered sperm quality (impaired motility and elevated DNA fragmentation index), the seminal microbiome and whether intake of probiotics alters these parameters.
This study intends to randomly group the patients with advanced maternal age and poor ovarian response, and the study group will undergo polar body biopsy, and the next-generation sequencing(NGS) technology will be used to evaluate the polar body euploidy and then predict the euploidy of the oocyte. Embryo transfer priority according to the NGS test results and morphological scores. In the control group undergo routine culture and the transfer priority is determined according to the morphological score only. The transfer of frozen embryos at the cleavage or blastocyst stage was permitted. Cumulative live birth rate, miscarriage rate and time required to obtain a live birth up to two ovulatory cycles in a year.
The objectives of this study are to compare the efficacy of the dual trigger group vs the hCG trigger group on the live birth rate in women undergoing IVF and the efficacy of the agonist in LP group vs the placebo group on the live birth rate in women undergoing FET.
This randomised double-blinded controlled trial aims to compare the live birth rate in natural FET cycles with and without oral dydrogesterone as luteal phase support. The hypothesis is that the use of oral dydrogesterone will increase the live birth rate of natural cycle FET.
The aim of present study is to evaluate the effect of intralipid 20% infusion, once between days 4 and 9 of the ovarian stimulation, and again within 7 days of a positive pregnancy test on clinical pregnancy rates in women with unexplained recurrent implantation failure.
Two hundred and thirty women with expected poor ovarian response undergoing IVF/ICSI will be randomly divided into 2 equal groups using computer generated random numbers. Group 1 will receive DHEA 25 mg (DHEA 25mg, Natrol , USA) t.d.s for 12 weeks before starting IVF/ICSI cycle in addition to Growth hormone (GH; Somatotropin, Sedico, Egypt) 4 IU on day 6 of human menopausal gonadotropin (hMG) stimulation in a daily dose of 2.5 mg subcutaneous (sc) until the day of human chorionic gonadotropin (hCG) triggering Group 2 will receive an oral placebo t.d.s. daily for 12 weeks before ICSI in addition to a sc placebo similar to GH daily from day 6 of stimulation until the day of hCG trigger.
300 women with expected poor ovarian response (POR) undergoing in vitro fertilization or intra-cytoplasmic sperm injection (ICSI) will be randomly divided into 2 equal groups using computer generated random numbers. Group 1 will receive Dehydroepiandrosterone (DHEA) 25 mg ( DHEA 25mg, Natrol , USA) t.d.s daily for 12 weeks before starting IVF/ICSI cycle and a placebo similar to growth hormone (GH) daily from day 6 of stimulation until the day of human chorionic gonadotrophin (hCG) trigger. Group 2 will receive an oral placebo t.d.s. daily for 12 weeks before ICSI in addition to GH (Somatotropin, Sedico, Egypt) 4 IU on day 6 of hMG stimulation in a daily dose of 2.5 mg subcutaneous (SC) until the day of hCG triggering. Patients included in the study will be subjected to full history taking and clinical examination. On the second day of menstruation serum FSH, LH, Prolactin and Oestradiol will be assessed and the antral follicular count (AFC) will be assessed using a vaginal ultrasound scan. AFC will be defined as the number of follicles measuring 3-10mm. All patients will have gonadotropin antagonist protocol with Human menopausal gonadotrophin (hMG) stimulation until the day of hCG administration. On the day of hCG administration, ovarian ultrasound scan will be performed using a transvaginal probe. Oocytes will be aspirated 34-36 hours after HCG administration. Oocytes will be fertilized and embryos will be transferred. Both groups will be compared regarding the proportion of ongoing pregnancy.
Polycystic ovary syndrome (PCOS) is one of the most common endocrinopathies, affecting 5% to 10% of women of reproductive age. Women with PCOS suffer from anovulatory infertility. Following lifestyle modification with weight reduction in obese PCOS women, clomifene citrate (CC) is considered the first line treatment for ovulation induction (OI) in these women. 75-80% of women will ovulate after CC administration. However, there is a discrepancy between the ovulation rate and pregnancy rate, which was reported to be 22% per each ovulating cycles after CC. Other alternatives, including gonadotropin injections and laparoscopic ovarian drilling, carried different disadvantages, such as costly treatment and risks of ovarian hyperstimulation syndrome and multiple pregnancy rate in gonadotrophin therapy and surgical risks and risk of ovarian failure in surgical treatment. The use of aromatase inhibitor, letrozole (LTZ), in reproductive medicine started in 2001. After this publication, there have been many groups of investigators studying the use of LTZ either in OI or ovarian stimulation in IVF cycles. A large multicentre randomized trial reported a significantly higher ovulation rate and live-birth rate comparing LTZ with CC. In majority of the publications, the multiple pregnancy rate was lower in LTZ group than in CC group. This can be attributed to the higher chance of monofollicular development after LTZ compared with CC. However, there is no information comparing the hormonal profile and follicular development after letrozole and CC. Mild ovarian stimulation using LTZ or CC in conjunction with intrauterine insemination is commonly offered to ovulatory women with unexplained infertility, minimal endometriosis or mild factor to improve the pregnancy rate. There is again no information comparing the hormonal profile and follicular development after letrozole and CC in ovulatory women. The aim of this study is to compare the hormonal profile after the use of LTZ and CC in anovulatory PCOS women and ovulatory women with unexplained subfertility. The hypothesis is that the FSH risk after LTZ is shorter than that of CC.
440 women with expected poor ovarian response undergoing IVF/ICSI (intracytoplasmic sperm injection) will be randomly divided into 2 groups using computer generated random numbers . Group 1 ( study group) will receive Dehydroepiandrosterone (DHEA) 25 mg ( DHEA 25mg, Natrol , USA) t.d.s daily for 12 weeks before starting IVF/ICSI cycle. Group 2 ( control group) will receive a placebo. Patients included in the study will be subjected to full history taking and clinical examination. On the second day of menstruation serum FSH, LH, Prolactin and Oestradiol will be assessed and the antral follicular count (AFC) will be assessed using a vaginal ultrasound scan. AFC will be defined as the number of follicles measuring 3-10mm. All patients will have gonadotropin antagonist protocol with Human menopausal gonadotrophin (HMG) stimulation until the day of (Human chorionic gonadotrophin (HCG) administration. On the day of HCG administration, ovarian ultrasound scan will be performed using a transvaginal probe. Oocytes will be aspirated 34-36 hours after HCG administration. Oocytes will be fertilized and embryos will be transferred. Both groups will be compared regarding the proportion of pregnancy.