View clinical trials related to Infertility, Male.
Filter by:The purpose of this study is to determine whether the administration of the dietary supplement Spermotrend improves spermatogenesis parameters in subjects with male infertility unrelated to major testicular conditions. The duration of this double-blind placebo controlled phase 3 clinical trial will be 24 weeks. The estimated number of males with infertility to be recruited and randomized for the study is 86.
The purpose of this investigational study is to find out what hormones are present in healthy male testicles using fine needle aspiration.
A correlation between obesity and male fertility has been observed in a few clinical studies. Normal weight men appear to have higher sperm concentrations and sperm motility when compared to obese men, suggesting that weight loss might improve sperm function. However, there also are reported cases of severe male factor infertility following weight loss surgery in previously fertile men. The aim of this study is to determine if there are differences in the semen analyses and hormone levels of men obtained before and after undergoing weight loss (bariatric) surgery. This will direct future research and treatment.
The proposed study is designed to test the following hypotheses: 1. Mouse autosomal or X-linked genes which are exclusively expressed in mouse spermatogonia are also spermatogonia-specific in human. 2. Severe spermatogenic defect, especially hypospermatogenesis or SCOS, is caused by an intrinsic defect in germ line stem cell or speramtogenia. 3. Spermatogonia-specific genes are caudate genes for human spermatogenic defect, especially for hypospermatogenesis or SCOS. 4. For a significant fraction of cases with severe spermatogenic defect, the sterile genes are transmitted via multifactorial inheritance mode. 5. For some cases with severe spermatogenic defect, mutations of spermatogonia- specific genes may be transmitted in the X-linked recessive, autosomal recessive, or autosomal dominant mode.
Sperm analysis following World Health Organization guidelines is unable to explain the molecular causes of male infertility when basic sperm parameters are within a normal range and women do not present gynaecological pathology. Subsequently, there is a need for accurate diagnostic tools in this sense and microarray technology applied to sperm analysis emerges as a promising field
The purpose of this study is to determine whether expressive writing can be effective in improving the well-being and sperm quality in patients with male infertility.
This study is being conducted at the University Hospital of Lund University in Malmo, Sweden, in collaboration with the U.S. National Institute of Child Health and Human Development. The study will try to identify genetic causes of impaired sperm production and male infertility. It will focus on the possible role of the MTHFR and CBS genes, which regulate absorption and metabolism of the vitamin, folate in infertility. If the nutritional intake or metabolism of this vitamin is related to male infertility, then this cause of infertility would be potentially curable. Fertile and infertile men between 20 and 45 years of age may be eligible for this study. Criteria include the following: - Fertile men: men whose partners are younger than age 40 and are attending Lund University prenatal clinic; who have fathered one or more pregnancies and who stopped birth control to achieve the present pregnancy; who achieved the present pregnancy in less than 12 months of unprotected intercourse. - Infertile men: men referred to the Scandian Andrology Centre whose infertility is unexplained, whose partners are younger than age 40 and who have had regular sexual intercourse without contraception for at least 12 months without achieving a pregnancy. All participants will have the following tests and procedures: - Complete a questionnaire providing information about their reproductive and medical history and recent dietary history; - Provide blood samples for analysis of red cell folate, plasma folate, plasma homocysteine, plasma B12, and for genetic evaluation; - Provide a semen sample for routine analysis, including volume, sperm concentration, sperm motility, and sperm morphology. In addition, infertile men will undergo a physical examination and review of their medical records.
Background: The number of multiple pregnancies is considered to be the most important adverse effect of in vitro fertilisation (IVF) and intracytoplasmic sperm injection (ICSI). IVF or ICSI with transferring only one embryo, elective single embryo transfer (eSET), will reduce this incidence remarkably. Unfortunately, former research has documented that cycles with SET maintain lower pregnancy rates compared to double embryo transfer (DET). Implementation of eSET will require a carefully chosen and thoroughly defined implementation strategy focussed on the couple undergoing the subfertility treatment. This trial will investigate the (cost)effectiveness of a combined patient centred implementation strategy. Objective: The main aim is to compare the effectiveness and costs of implementation of elective single embryo transfer (eSET) in in vitro fertilisation (IVF) and intracytoplasmic sperm injection (ICSI), between usual care and a combined patient-centred strategy. Study design: A randomised controlled trial Study population: Couples with a female age less than 40 years ongoing an IVF/ICSI treatment in 2 of the 13 Dutch IVF centres and their 4 satellite/transport centres. Intervention A combined patient centred implementation strategy for eSET in IVF/ICSI. The strategy consists of counselling through an evidence based decision aid and reimbursement of a 4th cycle if couples have chosen for eSET in the first 2 cycles. Primary study parameters/outcome of the study: the eSET occurrence rate, pregnancy outcomes and cost-effectiveness of the combined strategy. Secondary study parameters/outcome of the study: - patient knowledge - patient decisional conflict - patient satisfaction - IVF/ICSI treatment outcome.
The goal of this study is to determine whether there is a correlation between the levels of Vitamin E in sperm and sperm DNA fragmentation. Previous research has shown that damage to the DNA in sperm may cause infertility or increase the chances of miscarriage, if the damage is extensive (eg. present in the overwhelming majority of sperm). Some studies suggest that DNA damage can be caused by oxidative stress. Antioxidants, such as Vitamin E, which are present in some foods, can prevent damage to cells from "free radicals", which are naturally present by-products of metabolism. We ask whether there is a correlation between sperm DNA damage and Vitamin E
Laser-assisted intracytoplasmic sperm injection (ICSI) has been suggested as a more effective alterative to conventional ICSI when this method of insemination is indicated for patients undergoing in vitro fertilization (IVF). Laser-assisted ICSI differs from conventional ICSI in that a laser is used to drill a small hole through the hard outer coating surrounding an egg before the injection needle containing a single sperm is inserted into the egg. The hole eliminates compression of the egg that normally occurs with conventional ICSI, and thus may reduce the chance of damage. Laser-assisted ICSI is hypothesized to result in increased egg survival, and perhaps improved embryo quality, compared to conventional ICSI.