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Male Infertility clinical trials

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NCT ID: NCT05205733 Recruiting - Healthy Clinical Trials

Expanding Fertility Care to Poor and Low Resourced Settings Study

EXPLORE
Start date: May 24, 2022
Phase: N/A
Study type: Interventional

The investigators currently lack an understanding of barriers to completing the male factor infertility evaluation. Furthermore, as the investigators continue to expand access to fertility treatment particularly within low-resourced settings, it is important that all aspects of infertility within a couple are equally explored. The COVID-19 pandemic has disproportionately affected low-income communities and communities of color at greater rates in terms of not only disease morbidity/mortality but how medical systems are accessed and care is delivered.

NCT ID: NCT05203211 Recruiting - Male Infertility Clinical Trials

Use of Testicular Spermatozoa in Non-azoospermic Patients

NAZOSPERM
Start date: January 1, 2022
Phase:
Study type: Observational

Use of testicular spermatozoa in non-azoospermic patients.

NCT ID: NCT05200663 Recruiting - Male Infertility Clinical Trials

Efficacy Comparison of Tamoxifen and Tamoxifen With Antioxidants on Semen Quality of Male With Idiopathic Infertility

Start date: October 15, 2021
Phase: Phase 2
Study type: Interventional

Objective of the study is to compare the efficacy of tamoxifen alone & tamoxifen with antioxidant on semen quality of infertile male with abnormal parameters (sperm count, motility, vitality, morphology) .Infertility is defines as inability to conceive after one year of unprotected and regular intercourse. Infertility is the most important issue in the married couples and is one of the major clinical problem affecting people medically and psychologically .It affects about 5.8 to 44.2 % couples in the developing countries. Male infertility contributes to about 50% of the overall infertility. Antiestrogens are considered as one of the old and most commonly prescribed treatment of idiopathic infertility.Many studies has shown that it improves idiopathic oligozoospermia, count, motility and vitality. Spermatozoa are also prone to oxidative damage. Men who have high reactive oxygen species(ROS) may have lower fertility potential as compared to men with low ROS. High levels of ROS in semen have been correlated with reduced sperm motility and damage to sperm nuclear DNA. High levels of cytokines in the semen is correlated with sperm injury like cell membrane lipid peroxidation in the presence of raised IL-6 .Antioxidents are the most important form of protection for spermatozoa against ROS. So oral antioxidents are commonly prescribed to males with idiopathic abnormal semen parameters and infertility to reduce the oxidative stress and improves infertility. It is a single blinded randomized control trial to be conducted in Sharif Medical and Dental college, Lahore with sampling technique of probability randomized consecutive sampling technique. 110 male patients with idiopathic male infertility and abnormal semen parameters will be recruited . Pre treatment semen analysis and LH, FSH and serum testosterone will be done. 55 patients will be given tamoxifen alone ad 55 patients will be given tamoxifen with antioxidant. Then at the interval of 3 and 6 months after treatment , semen analysis and hormonal profile will be repeated. Pre-treatment and post treatment semen parameters will be compared using paired sample t-test. P-value < 0.05 will be taken as significant.

NCT ID: NCT05110391 Completed - Male Infertility Clinical Trials

Sperm Retrieval Rates in Non-obstructive Azoospermic Men Subjected to Gonadotropin Therapy

Start date: February 1, 2014
Phase:
Study type: Observational

Azoospermia is defined as the complete absence of spermatozoa in the ejaculate. Two-thirds of azoospermic patients have non-obstructive azoospermia (NOA); the latter comprises up to 10% of infertile men overall. NOA is an untreatable testicular disorder associated with spermatogenic failure and is the most severe male infertility phenotype. Among the available surgical sperm retrieval techniques, microdissection testicular sperm extraction (micro-TESE) is the procedure of choice due to its high sperm retrieval success rates (SRR), minimal tissue extraction, and low complication rates. Even with the use of micro-TESE, the likelihood of retrieving sperm in patients with NOA remain suboptimal (40% to 60%). Hypogonadism is detected in approximately half of the patients with NOA. Given the role of intratesticular testosterone (ITT) levels for spermatogenesis, some studies have explored the clinical utility of testosterone optimization by medical therapy before sperm retrieval. Moreover, some investigators have hypothesized that the follicle-stimulating hormone (FSH) reset might increase the expression of FSH receptors and improve Sertoli cell function. Hormonal therapy with human chorionic gonadotropin (hCG) has been shown to improve ITT production and decrease FSH levels in patients with NOA. The investigators, therefore, designed an observational cohort study aiming to evaluate whether hormone stimulation with gonadotropins (e.g., hCG alone or combined with FSH) previous to micro-TESE increases sperm retrieval rates in hypogonadal infertile men with NOA, candidates for sperm retrieval. The investigators hypothesize that optimizing ITT production and resetting FSH levels may improve spermatogenesis and successful sperm recovery.

NCT ID: NCT04959864 Recruiting - Male Infertility Clinical Trials

Efficacy Study of a Food Supplement With Myo-inositol, N-Acetyl-Cystein, Zinc and Vitamins on Sperm DNA Fragmentation

Start date: July 7, 2021
Phase: N/A
Study type: Interventional

In industrialised countries, it is estimated that about 15% of couples who wish to have a child are currently facing infertility problems, of which, in half of the cases, an anomaly in sperm quality or at least a factor of male origin is identified. The evaluation of sperm quality in males is based, for the most part, on the micro and macroscopic examination of various parameters (concentration, motility, physical abnormalities of the spermatozoa, etc.). Nevertheless, an increasing number of scientific studies have shown that the quality of sperm DNA, and in particular its fragmentation rate, is also associated with a lower fertilisation rate. The integrity of sperm DNA may be affected by an imbalance in the Red/Ox balance leading to uncompensated oxidative stress, and could be restored or improved by dietary hygiene measures and the consumption of specific dietary products. The ISITOL clinical study aims to evaluate the efficacy of a dietary supplement specifically formulated to target the various issues associated with male infertility, and in particular to contribute to the improvement of the sperm DNA fragmentation rate. The efficacy of the dietary supplement Isitol® (GYNOV SAS) on sperm DNA fragmentation rate and other secondary parameters is being evaluated through a single-centre, prospective, randomised, double-blind, interventional vs. placebo clinical study being conducted in France at Laboratoire Drouot (21 Rue Drouot - 75009 Paris - France) and led by Dr. Nino-Guy Cassuto. A total of 72 men aged between 20 and 45 years, with sperm DNA fragmentation rate ≥ 30% and with negative semen culture are recruited. The recruited patients were randomized in a 1:1 scheme into 2 groups (Isitol® treated vs placebo treated). [Results to be reported later]

NCT ID: NCT04946565 Recruiting - Male Infertility Clinical Trials

The Impact of Sinopharm COVID-19 Vaccination on Male Fertility

Start date: July 3, 2021
Phase:
Study type: Observational

The investigators shall study the effect of Sinopharm vaccination on semen parameters and serum testosterone

NCT ID: NCT04849156 Completed - Male Infertility Clinical Trials

Spermatozoa Morphology Selection by Thermotaxis

Start date: April 12, 2021
Phase:
Study type: Observational

This study aims to eventually assess the usefulness of thermotaxis for sperm selection in routine clinical practice.

NCT ID: NCT04704141 Not yet recruiting - Male Infertility Clinical Trials

Relationship of the Microenvironment and Male Fertility

Start date: June 2023
Phase:
Study type: Observational

Although much is known about the microenvironment of the gut and the vagina, very little has been published on the microenvironment of the seminal plasma. The seminal plasma is the support fluid for sperm, providing nutrients, facilitating sperm transit to the uterus, and promoting fertilization. It is a rich area of research for markers of fertility and treatment targets. The investigators hypothesize that (1) there are significant populations of seminal microorganisms associated with seminal leukocyte counts well below the WHO's cutoff for pyospermia (1 million/mL) that were not previously detected by traditional culturing methods, and (2) there are pathologic populations of bacteria within the gut and semen microbiome which negatively impact overall fertility, by directly or indirectly impairing hormone status. Participants will be recruited from the Male Fertility practice at the University of Illinois-Chicago (UIC). All participants will have infertility, diagnosed as an inability to conceive pregnancy after 12 months of unprotected intercourse. The normal evaluation of these participants is to obtain at least one semen analysis and bloodwork investigating their endocrine profile: total testosterone, estradiol, sex hormone binding globulin (SHBG), luteinizing hormone (LH), follicle-stimulating hormone (FSH), and albumin. Semen volume is typically >1 mL, and <0.2 mL is typically used for the semen analysis. If over 1 million/mL round cells are identified, then a Papanicolaou stain would be performed to identify leukocytes. In this study, any semen demonstrated to have round cells would undergo Papanicolaou staining. A portion of the remaining semen, which would typically be discarded, will be sent for microbiome analysis. Secondly, as part of routine care, fertility patients may be started on medications to increase endogenous testosterone (i.e.: clomiphene citrate, anastrozole, etc). Participants started on medications will also be asked to submit a rectal swab for gut microbiome analysis. Routine care is to monitor the hormonal and testicular response with periodic endocrine blood panels and semen analyses; rectal swabs will be requested at these follow-up intervals also. The control group for both hypotheses will be men with clinical infertility with normal semen analyses and hormone profiles.

NCT ID: NCT04585984 Recruiting - Male Infertility Clinical Trials

Effect of Antioxidant Probiotic Administration on Seminal Quality and Reproductive Outcomes.

Start date: February 5, 2021
Phase: N/A
Study type: Interventional

The quality of semen plays a fundamental role in correct fertilization and development of normal embryos that result in a live birth. Unfortunately, semen quality has declined during the last decades, and reduced more and more. The cases of male factor infertility currently correspond to 30% of the reported cases of infertility. The parameters that are directly affected in infertile men reflecting an impaired spermatogenesis are sperm concentration, motility, morphology, ejaculate volume and DNA damage, in addition to various alterations at the molecular level that often go unnoticed and are related to the physiological capacity of the sperm. These alterations result in a decrease in reproductive capacity, which leads to the need for assisted reproduction techniques (ART). The identification of new ways to increase the quality of sperm could be very useful to improve the reproductive performance of patients. Probiotics are defined as 'living microorganisms, which, when administered in adequate amounts, confer benefits for the health of the host'. The consumption of probiotics is increasing worldwide as therapy for many different diseases and disorders. In the field of assisted reproduction, the microbiome has been extensively studied with respect to the female endometrium to assess endometrial receptivity. However, there is little evidence about the role of the microbiome in semen. Previous studies demonstrated a moderate improvement on some sperm parameters, but still there is a need to confirm its translation into a clinical contribution to reproductive success. The aim of this study is to evaluate the effect of these strains, Lactobacillus rhamnosus CECT8361 and Bifidobacterium longum CECT7347, on the seminal quality of infertile patients coming to IVIRMA clinics to undergo their first IVF/ICSI cycle by means of determining direct improvement on the basic sperm analysis results, on sperm DNA integrity and on the seminal microbiome profile, to ultimately evaluate the effect that it may have on the embryo quality and reproductive results of the cycles of these patients.

NCT ID: NCT04541459 Recruiting - Male Infertility Clinical Trials

Validation of New Devices Against Ambient Electromagnetic Radiation

Start date: September 14, 2020
Phase: Early Phase 1
Study type: Interventional

Project Summary Cell phones have become indispensable devices in the investigator's daily life. These phones operate between 400 and 2000 MHz frequency bands and emit radiofrequency electromagnetic waves (EMW). Radio-frequency electro-magnetic field exposure from cell phones or other sources of microwaves have deleterious effects on sperm parameters (like sperm count, morphology, motility). Further, EMW radiation emitted by mobile phones affects cells and organelles, and results in disorientation of charged molecules within the cytosol and a distortion of electron flow along the internal membranes of the cells. These cellular changes results in the generation of ROS leading to oxidative stress, which in turn results in radiation-induced sperm DNA fragmentation. Radiation shield can help provide protection from high levels of EMW radiations deflecting, diverting, and absorbing the radiation between the user and the source. A new EMW radiation shield, Qi-Shield device developed by Waveguard GmbH (Bautzen, Germany) provides protection against the radiations emitted by the smartphone and laptop devices. Qi-Shield utilizes conductive fluids in a particular geometric arrangement intended to ameliorate the negative effects of EMW radiation. Study Aims: To evaluate the changes in the semen parameters from the use of Qi-Shield device in sham (control) and user groups To determine the molecular changes pertaining to sperm proteins from the use of Qi-Shield device in sham (control) and user groups Significance The negative health consequences of EMWs have been documented across a wide range of device types, exposure frequencies and doses (Giuliani, 2010), at field strengths substantially below the International Commission on Non-Ionizing Radiation Protection (ICNIRP) guidelines for permissible exposures. In the absence of a revision in the ICNIRP guidelines, near-term public exposures to EMWs will most certainly continue to increase, despite the scientific evidence suggesting more careful review and recommendations to limit exposure to electromagnetic fields as much as possible. At present, there is no veritable means for counteracting the negative health consequences of human-made EMWs, revealing an unmet need for a means of protecting from or ameliorating the negative effects of EMWs, and the need for devising strategies for creating safer living and working environments in a time of increasing EMW exposures. Positive results in this study would demonstrate a means of counteracting negative effects on human sperm due to EMWs. Documentation of protection due to the Qi-Shield devices would show proof of principle that a low-cost passive device, portable and without battery or mains power, can provide improvements in human sperm parameters, with promise for a means of counteracting EMW-reduced fertility in large numbers of people. Confirmation of changes on protein expression would provide data needed to identify specific pathways of action, insight that is necessary for a more detailed understanding of the mechanisms of action of the EMW protection effect. Taken together, these results would suggest further lines of study in EMW protection, and provide clinical support for the adoption of EMW-protecting devices in the home and workplace.