View clinical trials related to Infertility, Male.
Filter by:The purpose of this study is to determine if sperm DNA fragmentation is associated with in vitro fertilization (IVF) outcomes when euploid embryos are transferred.
Korean Red ginseng (KRG) has long been applied to various diseases as a health-promoting herbal medicine in Korea. Many clinical studies of ginseng have been performed to elucidate its therapeutic characteristics. KRG has been shown to be effective in many diseases, such as cancers, hypertension, Alzheimer's disease, diabetes, acquired immune deficiency syndrome, and sexual dysfunction. Several studies have indicated effects of ginseng on improving spermatogenesis in animals. The major mechanisms behind these effects were speculated to be anti-oxidant and anti-aging effects, as well as modulation of the hypothalamus-pituitary-testis axis [7 - 10]. However, there have been no controlled human clinical trials to evaluate the effects of KRG on spermatogenesis in patients with male infertility. Only a small proportion of causes of male infertility are currently curable, including male hypogonadal disorders that can be cured by gonadotropic agents, and obstructive azoospermia that can be corrected by surgery. In addition, evidence-based medicine has revealed that most empirical treatments are ineffective. Similarly, the efficacies of carnitine, anti-estrogens, kallikrein, vitamins C and E, and glutathione have not been confirmed. Therefore, the investigators investigated the effects of KRG on semen parameters in male infertility patients. This is the first placebo-controlled trial to evaluate the therapeutic effects of KRG in male patients.
Objective: Several in vitro studies report positive effects of ginseng on spermatogenesis. However, no controlled human clinical study of the effect of Korean red ginseng (KRG) on spermatogenesis has been performed. This study was performed to investigate the effects of KRG on semen parameters in male infertility patients in a randomized, double-blind, placebo-controlled study. Methods: A total of 80 male infertility patients with varicocele were recruited from April 2011 to February 2012. The subjects were then divided into the following four groups: non-V + P group, placebo; V + P group, placebo and varicocelectomy; non-V + KRG group, 1.5-g KRG daily; V + KGR group, 1.5-g KRG daily and varicocelectomy. Semen analysis was performed and hormonal levels were measured in each treatment arm after 12 weeks.
In assisted reproductive technology (ART) semen needs to be processed. Commonly used methods rely on physical properties of the spermatozoa, such as the swim-up methods and density gradient centrifugation. It is now known that current processing of spermatozoa does not prevent the admixture of spermatozoa with damaged genetic material. The latter have a negative impact on the outcome of ART. The investigators developed a new method for the processing of spermatozoa with intact genetic material based on flow cytometry and sorting (FACS) and on staining using a deye, YoPro. The investigators aim at examining the effect of this novel method of sperm sorting on the outcome of ART.
The ability of sperm to swim is important for normal fertility. Men with a genetic variation in the gene coding for Choline Dehydrogenase (CHDH) have decreased energy production by sperm, and their sperm do not swim normally. The metabolic product of this gene is a nutrient called betaine (found normally in the diet as a part of many foods such as spinach, beets and grain products). This study tests whether treatment with betaine is safe and whether it can normalize energy production in sperm of these men and restore normal swimming ability.
Men with infertility and normal hormone levels have few options for fertility treatment. Previous research work has suggested that men with infertility may have low levels of the active form of Vitamin A, called retinoic acid, in their testes. We think that giving men with low sperm counts retinoic acid may increase their sperm counts and improve their chances of fathering a pregnancy. We want to see if retinoic acid administration over twenty weeks can increase sperm production and help infertile men become fathers without the need for In vitro fertilization (IVF) and/or intracytoplasmic sperm injection (ICSI). We also want to see if adding calcitriol with retinoic acid will improve sperm motility in a sub-set of subjects.
The purpose of this study is to determine whether couples undergoing IVF/ICSI with male factor infertility, specifically with elevated sperm DNA damage, should testicular sperm extraction be utilized to improve their reproductive outcomes.
In this study, we performed autologous BMDMSC transplantation to the testis of Azoospermic patients in a trial to enhance and activate the spermatogonial stem cells of the testis and aiming to produce motile sperm.
In men presenting sperm alterations, the selection of genetically undamaged spermatozoa need to be improved in order to increase the success of assisted reproduction treatments. The aim of this study is to determine whether the presence of sperm head vacuoles is associated with sperm DNA alterations.
Multidisciplinary, multicentric, cross-sectional study on men in infertile couples who conduct their sperm test through their diagnosis of infertility