View clinical trials related to Male Infertility.
Filter by:To compare the acceptance, safety, and efficacy of needle-free jet anaesthetic technique (MadaJet) versus needle injection for sperm retrieval in patients with azoospermia.
Normal testicular hormonal and spermatogenic function depends not only on the testis itself, but also on the integrity of the hypothalamus and anterior pituitary. Systemic diseases has been shown to influence male gonadal function in variety of ways, leading to reduced libido, erectile impotence, infertility, osteoporosis, and decreased physical stamina and muscle mass. The effect of systemic diseases may occur directly at the testicular level: reduced Leydig cell function will lead to androgen deficiency, while diseases affecting Spermatogenesis may lead to infertility. Alternatively, acute and chronic illness may interfere with the hypothalamic-pituitary axis and lead to reduced testicular function.
- Infertility is defined as the inability of a sexually active couple to conceive after 1 year of regular intercourse without contraception, affects approximately 15% of couples, and male factors are the cause in 20% -50% of cases. - Infertility of unknown origin is classified into idiopathic male infertility and unexplained male infertility according to semen quality.
Testes of men with non-obstructive azoospermia (NOA) are imaged using MRI to find potential differences depending on the outcome, ie. sperm recovery in consequent microdissection testicular sperm extraction (MD-TESE).
Sperm parameters will be examined before DHA (DHA=Docosahexanoic Acid) consumption, after one months and after 2 months taken Docosahexanoic Acid or placebo.
Basic and clinical research is revealing that various noncoding and small RNAs play important and diverse roles in germ cell development and quality, including X/Y silencing during meiosis, gene regulation, DNA damage responses, and protection of the genome against transposable elements. Indeed, mammalian germ cells are known to harbor multiple small RNA species, including small interfering RNAs (siRNA), microRNAs (miRNA), and germline- specific PIWI- interacting RNAs (piRNA). However, their mechanistic roles in gametogenesis and human infertility are largely uncharacterized. The goal of this study is to elucidate the role of small RNA pathways in the events that give rise to viable euploid gametes. Four projects and three cores are included in this study.
The purpose of this study is to determine if elevations in oxidative stress, as measured by oxidation-reduction potential (ORP), can distinguish between semen samples from men with abnormal semen parameters from those with normal semen parameters. Static ORP (sORP) results, measured by the MiOXSYS System- a novel technology, will be compared to the current World Health Organization (WHO) semen analysis parameters (5th Edition WHO Laboratory Manual for the Examination and Processing of Human Semen [2010]).
Investigative trial to evaluate the role of a glial cell lined derived neurotrophic factor (GDNF) in regulation of spermatogonial renewal and testicular function. Goal of the trial is to provide greater information on the mechanisms that effect stem spermatogonial maintenance renewal and proliferation in its relation to male infertility.
Single center, prospective, open clinical study to determine the genomic imprint (epigenetic modification) in a series of male infertility patients with alterations in their spermiogram (oligozoospermia) compared to a group of fertile patients in order to evaluate the effect of FSH ( follicle stimulating hormone) administration on these modifications and on male infertility.
The objective of the Males, Antioxidants, and Infertility (MOXI) Trial is to examine whether treatment of infertile males with an antioxidant formulation improves male fertility. The central hypothesis is that treatment of infertile males with antioxidants will improve sperm structure and function, resulting in higher fertilization rates and improved embryo development, leading to higher pregnancy and live birth rates. Findings from this research will be significant in that they will likely lead to an effective, non-hormonal treatment modality for male infertility. An effective treatment for men would also reduce the treatment burden on the female partner, lower costs, and provide effective alternatives to couples with religious or ethical contraindications to ART (Assisted Reproductive Technology). If antioxidants do not improve pregnancy rates, but do improve sperm motility and DNA integrity, they could allow for couples with male factor infertility to use less intensive therapies such as intrauterine insemination. Male fertility specialists currently prescribe antioxidants based on the limited data supporting their use. A negative finding, lack of any benefit, would also alter current treatment of infertile males.