View clinical trials related to Sperm Count, Low.
Filter by:It has been described that 11% of men with semen values within the normal range established by the World Health Organization (WHO) have sperm DNA fragmentation. This has been associated with a lower fertilization rate, lower embryo development and, therefore, lower reproductive success. Focusing on the study of the integrity of the male genome can provide us information to diagnose infertility in the couple. The use of conventional sperm selection methods such as swim-up or density gradients has been a great advance in the improvement of male fertility. However, these methods use centrifugation in their protocol, a procedure that has been associated with sperm DNA damage. The ZyMōt is a chip based on microfluidic properties that allows the recovery of spermatozoa with lower DNA fragmentation rate without centrifugation of the semen sample. This new sperm selection method maintains all the advantages of conventional techniques, but decreasing DNA fragmentation associates to sperm recoveries techniques eventually improving reproductive rates. This quality would be beneficial for patients with unexplained infertility, recurrent pregnancy loss or clinical varicocele, factors that have been associated with a higher index of DNA fragmentation. However up to date there is evidence-based data supporting such improvement. The main objective of the present project is to evaluate the ZyMōt as a new non-invasive sperm selection device and to see its impact on the euploidy rate, comparing it with a sperm selection technique that is routinely used in the clinic: swim-up. At the same time, the effect that this new chip may have on sperm and other reproductive variables will be analyzed clinically, and molecularly with immunohistochemical and transcriptomic analyses in order to observe the impact of SDF(sperm DNA fragmentation) at the molecular and genomic level in oocytes with low reparative potential oocytes.
This randomized controlled double-blind parallel-group interventional trial explores the impact of 8-week creatine supplementation, with or without ubiquinol, on sperm quality biomarkers in normospermic and oligospermic men. It aims to determine potential enhancements in sperm health to provide insights into male fertility and reproductive health improvement strategies.
Cancer is a public health problem. In recent years, oncology has been revolutionized with the advent of new treatments for different tumor models, mainly immunotherapy directed against cell cycle control points. Numerous inhibitory pathways are incorporated into the immune system to maintain tolerance and homeostasis, and these are collectively known as immunological checkpoints. The main function of immunological checkpoints is to protect tissues from damage when the immune system is responding to pathogens and maintain tolerance to self antigens (ie, prevent autoimmunity). This is mainly achieved by down-regulation of T cell activation or effector functions. There is increasing evidence to show that a primary mechanism by which tumors evade the immune system is through the participation of immunological checkpoints. This has stimulated the development of many novel agents that modulate immunological checkpoints or other costimulatory receptors. CTLA-4 is the first receptor of the checkpoint that is successfully selected as immunotherapy. Ipilimumab, an anti-CTLA-4 monoclonal antibody, was the first immunological checkpoint inhibitor to receive FDA approval for the treatment of advanced melanoma. On the other hand, PD-1 is another receptor for the immune control point, and its ligands, the programmed cell death ligand 1 (PD-L1) and PD-L2, also resulted in important therapeutic advances in cancer immunotherapy. Unlike CTLA-4, PD-1 is widely expressed and can be found in, in addition to T cells, in B cells and natural killer (NK) cells. The main function of PD-1 is to limit the activity of T cells in peripheral tissues during an inflammatory immune response. The tumors can exploit this control point, expressing the ligand PD-L1 and generating that the cytotoxic T lymphocytes and the NK cells are anergic and incapable of killing. This up-regulation mechanism of PD-L1 is known in tumors such as melanoma, lung and ovary. Several monoclonal antibodies directed to PD-1 have already received approvals for their clinical use as Nivolumab and Pembrolizumab.