View clinical trials related to Hypogonadism.
Filter by:Non-combat-related muscle, tendon and bone injuries are the most common injuries suffered by military personnel, particularly in new recruits. These injuries impact military readiness and are responsible for roughly 60% of limited duty days, 65% of soldiers who are unable to deploy, and nearly $500 million in medical cost to the government annually in the Army alone. Drug interventions must be studied and developed to prevent these negative outcomes and prepare military personnel for the demands of military service. At the current time, military leadership has identified critical gaps in understanding how to minimize these injuries and train soldiers with drug intervention serving among those gaps. The goal of this study is to determine how a hormonal intervention can change muscle, tendon, and bone function as well as physical and psychological performance in response to mental and physical stress. To do so, we will examine sex hormone (testosterone, estrogen) levels, muscle, tendon, and bone images, blood samples, and physical and mental performance. We will look at things like changes in hormone levels, chemicals released from active skeletal muscles, and your body composition. The results from this study will be used to improve physical readiness training in the military with the goal of reducing injuries.
The goal of this observational study is to compare endometrial stripe thickness in adolescent and young adult (AYA) patients with a uterus on estrogen replacement therapy using oral progesterone versus the etonogstrel implant for endometrial protection. The main questions it aims to answer are: Aim 1: Characterize the mean endometrial thickness in AYA on estrogen hormone replacement therapy before initiation of progesterone therapy Aim 2: Characterize the mean changes and variability in endometrial thickness in AYA treated for 6 months with either the etonogestrel implant or continuous oral progesterone Aim 3: Assess satisfaction, side effects, bleeding patterns, any progesterone modifications, and adherence in AYA treated for 6 months with either etonogestrel implant or continuous progesterone Participants will be asked to: - Get two pelvic ultrasounds - Fill out two surveys - Continue their current hormone replacement therapy - Initiate one of two progesterone therapies (prometrium 100mg daily or Nexplanon) Researchers will compare the change in endometrial thickness after 6 months of progesterone use to see if there is a significant difference in the mean change between the prometrium and Nexplanon groups.
This study will be performed in normal men whose endogenous testosterone production has been temporarily suppressed by the administration of a single dose of 120 mg of the oral GnRH antagonist Relugolix, which is approved for the treatment of prostate cancer, and can suppress endogenous testosterone biosynthesis for 48-72 hours after a single dose.
This study relates to men with hypogonadism, a condition describing a deficiency of androgens such as testosterone. Deficiency of these hormones occurs in men due to testicular (primary) or hypothalamic-pituitary (secondary) problems or may be observed in men undergoing androgen deprivation therapy for prostate cancer. Testosterone plays an important role in male sexual development and health, but also plays a key role in metabolism and energy balance. Men with testosterone deficiency have higher rates of metabolic dysfunction. This results in conditions such as obesity, nonalcoholic fatty liver disease, diabetes, and cardiovascular disease. Studies have confirmed that treating testosterone deficiency with testosterone can reduce the risk of some of these adverse metabolic outcomes, however cardiovascular mortality remains higher than the general population. We know that testosterone deficiency therefore causes metabolic dysfunction. However, research to date has not established the precise mechanisms behind this. In men with hypogonadism there is a loss of skeletal muscle bulk and function. Skeletal muscle is the site of many critical metabolic pathways; therefore it is likely that testosterone deficiency particularly impacts metabolic function at this site. Men with testosterone deficiency also have excess fat tissue, this can result in increased conversion of circulating hormones to a type of hormone which further suppresses production of testosterone. The mechanism of metabolic dysfunction in men with hypogonadism is therefore multifactorial. The purpose of this study is to dissect the complex mechanisms linking obesity, androgens and metabolic function in men. Firstly, we will carry out a series of detailed metabolic studies in men with testosterone deficiency, compared to healthy age- and BMI-matched men. Secondly, we will perform repeat metabolic assessment of hypogonadal men 6 months after replacement of testosterone in order to understand the impact of androgen replacement on metabolism. Lastly, we will perform the same detailed metabolic assessment in men with prostate cancer before and after introduction of a drug which causes testosterone deficiency for therapeutic purposes.
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.
Transition from paediatric to adult endocrinology is a challenge for adolescents, families and doctors. Up to 25% of young adults with chronic endocrine disorders are lost to follow-up ('drop-out') once the young adult moves out of paediatric care. Non-attendance and sub-optimal medical self-management can lead to serious and expensive medical complications. In a pilot study, adolescents suggested the use of e-technology to become more involved in the transition process. The investigators have designed and developed the YESS! game, a tool to help improve medical self-management in adolescents with chronic endocrine disorders. The hypothesis is that adolescents playing the YESS! game will show a larger increase in self-management score during the first year of transition and will have a lower drop-out rate at the adult endocrine outpatient clinic (OPC), compared to adolescents who do not play the game.
This is a phase III study for evaluation of Nasotestt efficacy compared to Androgel in the treatment of male participants with hypogonadism condition (reduced levels of testosterone) that have clinical indication of hormonal replacement with testosterone.
The investigators wish to explore the variability of uterine, breast and bone outcome markers as surrogates to assess the adequacy of exogenous oestrogen replacement in individuals with hypogonadism.
This study is a continuation of previous studies done in healthy volunteers to prove the efficacy of delivering Testosterone, the male hormone, rapidly across intact skin in s series of doses from low to high in men with low-to-no natural testosterone production to measure their response to the varying doses. The results of this study will inform further studies which will be longer in length, as to the starting doses. The study will be conducted in London, U.K. at the Advanced Therapies Centre, The London Clinic.
This study will be conducted as a prospective, single-center (multiple clinics), single-arm open phase IV study. the study will follow hypogonadal patients, and aimed to confirm the hypothesis that testosterone undecanoate improves the patient satisfaction and quality of life, with parallel improvement in their spouses's quality of life and satisfaction. Each patient/spouse will serve as his own control.