View clinical trials related to Infertility.
Filter by:This study will aim to assess the fertility status of men with Spinal Muscular Atrophy (SMA) not on disease-modifying therapies. Participants will: 1. Complete online questionnaires that will assess SMA diagnosis and disease burden, medical and surgical history, medication usage, and fertility status and perspectives. 2. Over the 3-month initial study baseline period participants will provide two separate ejaculates for semen analysis and a single determination of sperm quality using DNA fragmentation testing using home collection and subsequent shipment to a central laboratory. 3. Over the initial study baseline period of 3 months study participants will obtain a blood test to determine male reproductive hormone levels. During the 24-month study duration, participants will be requested to undergo a yearly semen analysis and complete online relevant questionnaires.
Prospective observational study on the quality of life of patients attending general urology, sexual medicine, reproductive medicine, functional urology, neuro-urology and uro-oncology clinics.The data relating to the clinical conditions (disease state, psychological and related to quality of life) of the patients belonging to the above-mentioned clinics will be collected in a specially designed database which will allow us to extract the data in a simple and safe way used for statistical analyses. in clinical research.
Infertility, defined as the inability to conceive after 12 months of regular unprotected intercourse, is estimated to affect 1 in 7 heterosexual couples. Semen analysis, carried out as per the detailed World Health Organisation (WHO) standards in an andrology laboratory, is the primary investigation for the male partner presenting to the fertility clinic and reports on multiple semen parameters. Hospital clinic attendance is required, which could be at a significant distance from the patient's home, to produce a sample at a given appointment time that is then analysed by the laboratory without delay, as the results are time sensitive. A formal report is produced after several weeks. This process was not sustainable during the Covid pandemic and these methods would be threatened by similar situations in the future. Despite semen analysis being an essential component of fertility work-up the WHO themselves state that the test does not distinguish between fertile and infertile men. In addition, it involves a significant cost to the national healthcare system. Therefore, a more efficient initial test of male fertility warrants consideration. Home semen analysis tests are a screening tool that provide a simplified, initial assessment. They are widely available to purchase in the UK, but are not currently issued to patients seen in NHS clinics. They have the potential to reduce time to diagnosis and reduce the cost to the healthcare provider. To investigate the clinical and cost effectiveness of using home semen analysis tests a randomised controlled trial (RCT) is needed comparing them to laboratory semen analysis (standard care). Before a fully-fledged national trial is planned in a UK setting, the investigators would like to undertake a feasibility study to answer, "Is it feasible to conduct a trial comparing home semen analysis tests with current standard practice for the initial assessment of men referred to the fertility clinic?"
The project aims to collect fresh biological material derived both from surgical resections performed in diseases, neoplastic and otherwise, of urological relevance at the level of the prostate, bladder, kidney, testicle and genitourinary organs, and from peripheral blood or other fluids biological samples such as urine, seminal fluid, buccal mucosa, feces or saliva, when available.
By applying a "system medicine" approach, the project aims to identify new biomarkers and/or prognostic tools aimed at developing personalized strategies to prevent the onset of comorbidities in infertile men.
The hormonal environment (steroid, primarily) could have a very relevant pathophysiological role in association with SARS-CoV-2. That is, testosterone could play a relevant role in leaving male subjects more exposed to infection and more prone to developing severe complications following COVID-19 infection.
The goal of this clinical trial is to test the effect of granulocyte colony-stimulating factor (G-CSF, A.K.A. Filgrastim) in infertility patients undergoing in vitro fertilization (IVF) treatment. The main question it aims to answer is: Can in vitro fertilization-embryo transfer (IVF-ET) outcomes be improved by supplementing the transfer media with Granulocyte colony-stimulating factor (GCSF)? Participants will undergo their embryo transfer as per the normal clinic protocol but will be randomized to either receive the standard embryo transfer media or the GCSG-supplemented transfer media. Researchers will compare the GCSF and standard transfer media groups to see if clinical outcomes are improved (i.e., implantation rate, pregnancy, clinical pregnancy rate, live birth rate).
This is a phase 3b clinical trial with follitropin delta (FE 999049) and Gonal-F. The trial is a randomised, controlled, assessor-blind, parallel groups, multicentre trial comparing the ovarian response of a starting dose of either 10mg or 15 mg follitropin delta to a starting dose of either 150 IU or 225 IU Gonal-F in a long GnRH agonist protocol in women undergoing an assisted reproductive technology programme in China.
Enrolling of 150 female patients of fertile age diagnosed with PCOS, insulin resistance, infertility, or mitochondrial disease, and the same number of age- and sex-matched controls are planned. During the research biomarkers already with mitochondrial dysfunction in the scientific literature and common mtDNA abnormalities (deletions, point mutations, copy number changes, etc.) are examined.
It has been proposed that enriching transfer media with hyaluronan (EmbryoGlue medium) improves pregnancy outcomes compared with media containing lower concentrations of this molecule. However, none of previous studies included preimplantation genetic testing for aneuploidy (PGT-A) embryos. In order to investigate the impact of this hyaluronan-enriched on pregnancy outcomes, it is essential to evaluate its efficacy on euploid-only embryo transfers. The aim of the present study is to evaluate whether a short period of exposure of euploid blastocysts to EmbryoGlue prior to and during transfer positively impact on pregnancy outcomes of frozen embryo transfer (FET) cycles.