View clinical trials related to Infertility, Male.
Filter by: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.
Hypothesis: To identify new gene mutations that can be related to patients with idiopathic male factor infertility. Primary Objective: To detect possible genetic abnormalities in families with more than one sibling with male infertility. Secondary Objective: To evaluate using next generation DNA sequencing in cases of infertility
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
The ideal stimulation protocol for ovarian stimulation is under constant debate, as we gain more pharmacological control over the patient hormonal milieu. Specifically, the debate focuses around the ideal LH levels. The concept of an "LH window" was suggested. The need for a threshold level of LH is clearly demonstrated in hypogonado-tropic hypogonadism patients, but also in cycling patients receiving high doses of GnRH antagonist. The Ganirelix dose finding study demonstrated very low implantation rates in the high dose groups (1 mg, 2 mg). The stimulation dynamics in these patients were remarkable for very low E2 and LH levels on the day of hCG. In fact, a functional state of hypogonadotropic hypogonadism is achieved, explaining the poor clinical results (1.5% implantation rate under 2 mg Ganirelix). The same protocol was repeated with added Luveris resulting in excellent pregnancy rates. The recommended daily dose of GnRH antagonist is 0.25 mg which on the average provides a protection from premature LH surge, with moderate suppression of LH. Therefore, most patients do not need supplemented LH after the antagonist is initiated. However, there is a subgroup of patients who hyper-respond to the antagonist (in 0.25 mg dose) with a sharp decrease in LH. This explains contradictory findings in the available studies. The basic assumption in the background of this proposal is that there is a wide range of pituitary responses to GnRH antagonist. Obeying a bell-shape curve, most women have an average response, however, some hypo-respond might ovulate prematurely, and others hyper-respond. In the latter cases, pituitary response will behave as if exposed to a higher dose. How to identify an exposure to a presumed higher dose? Below is a figure from the original paper. A close look indicates that the immediate response to all Ganirelix doses are similar in terms of LH drop, however, the big difference lies in the pituitary recovery 24 hours post Ganirelix dose. While small doses allow for a quick recovery to almost pre-treatment LH levels, high doses result in incomplete recovery. Hence, it is reasonable to speculate that the high response to 0.25 mg dose will lead to slow or incomplete recovery of LH levels 24 hours post the initial dose. It is estimated that about 15% of patients are antagonist hyper-responders. Efforts to individualize patient protocol must target this group as candidates for supplemented LH. This estimate is similar to study findings: Huirne et al Human Reproduction 2005, 20: 359.
Some animal studies revealed that the pomegranate juice may improve sperm quality in terms of concentration, motility and morphology, as well as in fertilization rate. Minor data is available regarding the influence on male sperm.
The purpose of this study is to determine whether the effect of mixed herbals drug (citrus, citrolus vol, lan, carrot seed, zingiber, onion, basil, cinnamon) administration on male infertility: oligospermia
The purpose of this randomized controlled clinical trial is to evaluate the effects of clomiphene citrate compared to placebo (substance without active medication) in men who are taking pain medication (opioids) for chronic pain conditions and who have low blood testosterone levels. The condition of men having low testosterone with long-term pain medication (opioid) usage is called opioid-induced androgen deficiency (OPIAD). Low testosterone can be caused by pain medication effects on part of the brain (hypothalamic-pituitary axis) which ultimately result in decreased testosterone production by the testes. Typical symptoms of low testosterone (hypogonadism) may include decreased muscle mass, increased fat, osteoporosis, anemia, erectile dysfunction, delayed ejaculation. In addition, men with low testosterone may experience decreased attention, and decreased libido, fatigue, and depressed mood. Few studies have looked at hormonal changes caused by long-term opioid usage in men. Clomiphene citrate, a selective estrogen receptor modulator (SERM) oral medication which inhibits estrogen effects (feedback) on the brain, has been identified by prior studies to raise testosterone in men with low testosterone (due to reasons other than chronic pain medication). Clomiphene citrate is also known to lead to increased sperm production in men with low testosterone unlike testosterone topical or injection medications. Although clomiphene citrate has been studied in hypogonadal men with beneficial outcomes and minimal side effects, no group has previously studied clomiphene citrate as treatment in patients with OPIAD.