364 Clinical Trials for Various Conditions
Transmasculine youth (female sex assigned at birth, male gender identity) who begin clinical gender affirming hormone therapy (GAHT) with testosterone (T) may experience changes in headache. Researchers think this because studies published on effects of giving testosterone to cisgender females (female sex, female gender identity) and transmasculine adults seem to show an effect on pain. This research will help us learn more about changes in headache and in brain structure and function in transmasculine youth during the first two years of T. Youth who will be starting T within 6 months, either on puberty blocker or not, as part of their regular medical care can participate and will be asked to attend 4 visits: * before starting T * after 6 months on T * after 1 year on T * after 2 years on T At the visits, they will be asked to: * answer questions and surveys about their health * have a brain MRI done * give a small sample of blood and at their first visit, complete a physical exam. Some participants can also do a brief test of pain sensitivity. All participants will be asked to complete a headache diary for the first 6 months, for 1 month after the 1 year visit, and for 1 month after the 2 year visit.
This randomized, triple-blind, placebo-controlled, hybrid trial aims to evaluate the efficacy of a men's supplement designed to increase testosterone levels and improve energy, cognition, and sexual function. The study will involve 50 male participants, with assessments carried out at Baseline, Day 45, and Day 90 through questionnaires and blood tests.
Spinal cord injury (SCI) disrupts the nerves controlling movement, along with those that regulate functions like heart rate and blood pressure (known as the autonomic nervous system, or ANS). Testosterone (T) plays a significant role in brain health and ANS reflex function in non-neurologically impaired men. However, little is known about the relationships between T, nerve function, and ANS dysfunction after SCI. Interestingly, up to 60% of men with SCI exhibit persistently low T concentrations, which may worsen nerve and ANS dysfunction. In uninjured eugonadal people (normal physiologic range of serum T concentrations), a single pharmacologic dose of intranasal T has been shown to quickly improve nerve function, but no study has evaluated if T administration alters nerve and ANS function in men with SCI. Herein, the investigators will conduct the first study to test how a single dose of intranasal T impacts motor and ANS function in this population.
This trial examined how the administration of exogenous testosterone would influence pain tolerance and other endogenous steroids (i.e. estradiol and progesterone).
This study in being conducted in men who have low testosterone and chronic kidney disease. The investigators will evaluate the effects of an oral testosterone preparation, JATENZO, on testosterone levels and hemoglobin (red blood cells).
Phase 1: In 51 patients undergoing shoulder arthroplasties, total serum testosterone, free testosterone and sex hormone binding globulin levels obtained in the clinic before surgery were correlated with the levels of Cutibacterium on the skin in clinic, in the operating room prior to surgery, and in the skin incision. Phase 2: The investigators wish to determine if preoperative serum testosterone levels are associated with risk for shoulder PJI (periprosthetic joint infection) in patients undergoing primary shoulder arthroplasty. Also to determine if preoperative serum testosterone levels are predictive of bacterial load of deep tissue cultures taken at the time of revision shoulder arthroplasty in patients undergoing primary shoulder arthroplasty.
The purpose of this study is to assess the change in 24-hour ambulatory blood pressure monitoring (ABPM) between baseline (Day 0) and Day 120 following 4 months of testosterone therapy with Natesto.
The aim of this trial is to evaluate whether testosterone replacement results in greater improvement in pain perception, pain tolerance, sexual function, fatigue, and quality of life when compared with placebo in men with chronic spinal pain treated with opioids who have opioid-induced hypogonadism (low testosterone).
This pilot study will determine the feasibility of implementing a combinatory rehabilitation strategy involving testosterone replacement therapy (TRT) with locomotor training (LT; walking on a treadmill with assistance and overground walking) in men with testosterone deficiency and walking dysfunction after incomplete or complete spinal cord injury. The investigators hypothesize that LT+TRT treatment will improve muscle size and bone mineral density in men with low T and ambulatory dysfunction after incomplete or complete SCI, along with muscle fundtion and walking recovery in men with T low and ambulatory dysfunction ater incomplete SCI.
The loss of muscle mass post-surgery confounds recovery efforts and leads to a delay in patient's ability to return to activities. Although the use of testosterone in aging and chronic muscle loss has been investigated, this study could prove short-term use of testosterone efficacious in preventing muscle atrophy due to surgery. We hypothesize that by bracketing an indexed knee surgery with testosterone undecanoate injections, post-surgical quadriceps muscle loss may be minimized. Determination of the effect of intra-muscular (IM) testosterone injections in preventing quadriceps muscle loss are measured by serial MRI and manual measurements of quadriceps cross-section.
Asymptomatic men without pain due to prostate cancer progressing with metastatic CRPC after treatment with combination or sequential ADT + Abi will be treated on a randomized, open label study to determine if sequential treatment with high dose T and Enza will improve primary and secondary objectives vs. continuous Enza as standard therapy.
The objective of this study is to determine if treating patients undergoing arthroscopic rotator cuff repair with testosterone will allow patients to accelerate their recovery time after surgery.
Hypogonadism is an endocrine disorder characterized by absent or deficient testosterone levels along with signs and symptoms of androgen deficiency, including delayed development or regression of sexual characteristics, impaired sexual function and sense of well-being, depressed mood, decreased muscle strength associated with loss of muscle mass and reduced bone mineral density. AndroGel 1.62% has demonstrated its ability to increase total testosterone levels in the blood by absorption of testosterone through the skin when applied topically. This study evaluated the effect of AndroGel 1.62% on systolic blood pressure using ambulatory blood pressure monitoring in hypogonadal men who used testosterone replacement therapy. AndroGel 1.62% is a drug used for the treatment of hypogonadism, which is associated with low or no testosterone. This was an open-label study which means that both the study doctor and study participants knew what drug and what dose is being used. All participants in this study were in the same group, called a treatment arm. Adult male participants with hypogonadism were enrolled and received AndroGel 1.62%. This was a multi-center study with 190 participants enrolled (initially planned) in approximately 45 sites in the United States to yield 171 subjects in the per protocol (PP) population. A blinded sample size re-estimation (BSSR) was performed when around 70% of the planned subjects in the PP population had completed the end of treatment visit. Sample size was increased at BSSR and 246 participants were actually enrolled. Participants received daily topical gel doses of AndroGel 1.62% for approximately 16 weeks. There may have been a higher burden for participants in this study compared to standard of care. Participants attended 8 study visits during the course of the study at a hospital or clinic and received 2 study phone calls. The effect of the treatment was checked by medical assessments, blood tests (including pharmacokinetic sampling), and 24-hour blood pressure monitors.
The objective of this study is to determine the effects of a single dose of testosterone undecanoate during and in recovery from simulated operational stress.
The overall goal of this study is to evaluate the effect of a testosterone drug called Depo-Testosterone (or 'testosterone cypionate'), an FDA-approved drug for improving fatigue, sexual function, quality of life, body composition, muscle strength, and physical activity in young cancer survivors who report fatigue and have low testosterone. Main hypothesis is that Testosterone administration in young male cancer survivors who are in remission for at least 1 year, report cancer-related fatigue and have symptomatic testosterone deficiency will be associated with greater improvements in fatigue scores compared with placebo.
Low testosterone and diabetes mellitus are each associated with increased risk for fractures. Men with diabetes mellitus are commonly found to have low testosterone as well. Testosterone has been shown to improve the bone health of patients with low testosterone but has not been tested in patients who also have diabetes mellitus in addition to low testosterone. To date, there is no treatment that is specifically recommended for bone disease among patients with diabetes. This study will evaluate the effect of testosterone on the bone health of male Veterans who have both diabetes and low testosterone, both of which are highly prevalent in this subset of the population.
This is a double-blinded and placebo-controlled study of topical testosterone replacement therapy (TRT) in symptomatic hypogonadal men with pre-existing cardiovascular disease (CVD) or increased risk for CVD.
Decreased muscle mass (sarcopenia) and strength (dynapenia) are common during aging, with a rate of muscle mass loss that is approximately 6% per decade between 30 and 70 years of age. Muscle mass loss results in reduced strength and physical function (frailty), increased risk for falls and bone fractures, and decreased quality of life. The age-related decrease in testosterone plays a key role in the loss of muscle mass and strength for aging males. There is increasing interest in nutritional and exercise strategies to prevent aging-related losses in muscle mass and strength. Sexual dysfunction has a high prevalence among men (31%), and include erectile difficulties (10%), lack of interest in sex (9%), and inability to achieve orgasm (7%). There are multiple causes including low testosterone. There is growing interest in natural supplements, and this study will compare under double blind procedures two natural supplements with placebo (Men's Perfect Multi Formula and Andro Vitality) that have been formulated by Purity Products. The supplements contain micronutrients, plant extracts, and herbs, with the primary bioactives Rhaponticum carthamoides and magnesium. Rhaponticum carthamoides, commonly known as maral root or Russian leuzea, is a perennial herb that grows in South Siberia, and has been used to enhance muscular and sexual function, but more evidence from properly designed human trials is needed to determine both efficacy and safety. The purpose of this study using a randomized, parallel group design, is to evaluate the effect of two supplements relative to placebo on strength, serum free and total testosterone levels, sexual function, mood state, and quality of life compared to placebo over a 6-week period in 120 males.
The long term objective is to develop a gel to be used as a male contraceptive.
This will be a phase 1/2a, open-label, single-center study with 3 periods. The aims of the study are to: 1. evaluate the dose-response curve following ascending single doses of TSX-011; 2. confirm optimum dosing conditions; 3. evaluate the efficacy of single or multiple daily adaptive dosing; and 4. evaluate the safety and tolerability of TSX-011.
This research study in infant males with Klinefelter syndrome (47,XXY) will learn more about the effect of testosterone on early health and development. The study is a total of three visits over 6 months with assessments of motor skills, body composition (muscle and fat), and hormone levels. This is a randomized, placebo-controlled study but all infants will receive testosterone treatment during the study period. The investigators will learn how testosterone treatment in infancy effects short term outcome measures on health and development.
Fatigue is a major symptom in people with multiple sclerosis (MS), for which treatments are limited. Several studies have shown that a large proportion of men with MS have low testosterone levels. We propose a two-site clinical trial using topical testosterone gel as a treatment for MS-related fatigue in men with progressive MS who have low or low-normal testosterone levels.
This is a two-center, open-label study conducted in healthy male and female volunteers at two academic research centers. The study will consist of three single applications of the Nestorone (NES) + testosterone (T) combined gel on the shoulders/upper arms of male participants followed 2 hours later by supervised skin contact by the non-dosed female participants on the application site on days 1, 8, and 15. Effect of Washing or Clothing Barrier to the Application will be assessed.
This study plans to learn more about heart and vascular aging in men. In some men as they get older, testosterone levels fall below the normal range for young men. Also, as men get older cardiovascular health worsens. This can lead to high blood pressure and heart disease. In this study we want to find out what causes cardiovascular health to worsen in older men. Also we want to find out what happens when testosterone levels are lowered for a short time. Specifically, we want to see if the reduction in cardiovascular health in older men with low testosterone levels is because of damage to mitochondria. Mitochondria are the main power supply of the cells in our body. The results from this study will help to understand why cardiovascular health declines in older men with low testosterone levels compared to younger men and older men who have higher testosterone levels. Knowing this information will help to develop therapies to prevent heart disease in men.
Determine the serum pharmacokinetic profile for two oral formulations of T-esters (one TE and one TU) administered once -(QD) and twice-daily (BID) to hypogonadal men.
Torsades de pointes (TdP) is a potentially fatal ventricular arrhythmia associated with corrected QT (QTc) interval prolongation. More than 50 commonly used drugs available on the US market may cause QTc interval prolongation and TdP. While TdP occurs more commonly in women, 33-45% of all cases of TdP have occurred in men. Older age is a risk factor for drug-induced TdP in men, possibly due to declining serum testosterone concentrations. Available evidence shows an inverse relationship between QTc intervals and serum testosterone concentrations. In addition, experimental data, including those from the investigators' laboratory, suggest that both exogenous testosterone or progesterone administration may be protective against prolongation of ventricular repolarization and TdP. Specific Aim: Establish the influence of transdermal testosterone administration and oral progesterone administration as preventive methods by which to diminish the degree of drug-induced QT interval prolongation in men 65 years of age or older. Hypothesis: Transdermal testosterone administration and oral progesterone administration both effectively attenuate drug-induced QT interval response in older men. To test this hypothesis, transdermal testosterone, oral progesterone or placebo will be administered in a 3-way crossover study to men 65 years of age or older. QTc interval response to low-dose ibutilide will be assessed. The primary endpoints will be Fridericia-corrected QT interval (QTF) response to ibutilide, in the presence and absence of testosterone, and in the presence or absence of progesterone: 1) Effect on pre-ibutilide QTF, 2) Effect on maximum post-ibutilide QTF, 3) Effect on % change in post-ibutilide QTF, and 2) Area under the QTF interval-time curves.
Asymptomatic men with progressive metastatic Castration-resistant prostate cancer (CRPC) post- treatment with abiraterone acetate (pre-chemotherapy for metastatic disease) will be treated on a randomized, multi-Institutional open label study to determine if treatment with intramuscular T given on a dose/schedule designed to result in rapid cycling from the polar extremes of supraphysiologic to near castrate levels \[i.e. Bipolar Androgen Therapy (BAT)\] will improve primary and secondary objectives vs. enzalutamide as standard therapy.
The purpose of this study is to determine whether testosterone plus finasteride treatment will improve musculoskeletal health, neuromuscular function, body composition, and metabolic health in hypogonadal men who have experienced ambulatory dysfunction subsequent to incomplete spinal cord injury. The investigators hypothesize that this treatment will improve bone mineral density, enhance muscle size and muscle function, and improve body composition, without causing prostate enlargement.
Low testosterone is a condition that occurs when the body is unable to produce sufficient quantities of testosterone. The medical name for low testosterone is hypogonadism. Hypogonadism can be caused by many factors. Symptoms include: decrease in libido, lack of energy and mood swings. The goal of testosterone replacement therapy is to return testosterone levels to the normal range and relieve symptoms.
Single-arm, single site, open label study of the effects of parenteral testosterone followed by enzalutamide, abiraterone or castration-only therapy in men with metastatic CRPC who previously progressed on one of these forms of therapy. The study will enroll four cohorts of patients: men with metastatic CRPC who have progressed on enzalutamide (Cohort A; n=30); men with metastatic CRPC who have progressed on abiraterone acetate (Cohort B; n=30); men with metastatic CRPC who have progressed on first line castration-only therapy (Cohort C; n=30); men with metastatic CRPC with inactivating somatic or germline mutations in ≥2 of the genes TP53, PTEN, or RB1 (Cohort D; n=20).