View clinical trials related to Testosterone.
Filter by:A transgender man is someone with a male identity who were born with a vulva and vagina. The acquisition of masculine characters can come from surgery or from the use of testosterone. Despite the benefit of using this hormone in relation to hair development, muscle mass gain and changes in voice timbre, its use can cause an increase in the hematocrit (Ht) level. When erythrocytosis occurs (Ht ≥ 50%), the currently proposed conduct is the suspension of cross-hormonization for 3 months, which has negative effects on the affirmation process. This project aims to assess whether reducing the dose of testosterone cypionate by half (100mg/15d) can mitigate the negative outcomes caused by the suspension with the benefit of reducing the hematocrit level in trans patients who developed erythrocytosis using testosterone. This is a pilot study that will compare the intervention (testosterone cypionate 100 mg, fortnightly) to the suspension of the drug, both for 3 months, with the main outcome being the hematocrit level. Hormonal and biochemical levels and the Hospital Anxiety and Depression scale (HAD) will also be evaluated in patients treated at the Gender Incongruence Outpatient Clinic of the Hospital das Clínicas of the Faculty of Medicine of Ribeirão Preto.
Healthy women will take tablets containing 600 mg D-chiro-inositol twice per day for one month. We will evaluate metabolic and hormonal.parameters, as insulienmia, glycemia, estradiol, testosterone.
Currently, the gold standard to obtain bioavailable testosterone results is radioimmunoassay (RIA). However, this assay requires specific equipment. Giton in 2006 proposed an optimized calculation of the Vermeulen equation, the results of which seem to be well correlated with those obtained by RIA. The aim of this study is to determine if the bioavailable testosterone levels determined by both methods are similar in order to replace the usual RIA assay of bioavailable testosterone by this calculation.
This study is a randomized, double-blind, placebo-controlled trial examining the effects of creatine monohydrate supplementation on androgens and hair loss in free-living adult males. Participants will complete 6 months of supplementation of 5 grams per day of creatine monohydrate while following their normal lifestyle practices. At baseline and six months after study initiation, participants will complete laboratory assessments. These assessments will include a standard blood draw for evaluation of total testosterone (T), free T, dihydrotestosterone (DHT), and DHT:T ratios in the blood, as well as global photography and questionnaires to evaluate hair loss. This study will examine the claim that creatine increases DHT concentrations and and DHT:T ratio, as well as provide novel data regarding whether creatine promotes hair loss.
Trial objectives and purpose: The primary aim is to study the effects of moderately increased testosterone concentration on aerobic performance (endurance running time to exhaustion), and secondary aims to investigate the effects on submaximal work on treadmill, anaerobic capacity, muscle strength, body composition, behaviour and well-being, blood parameters, steroid hormone profile, gynecological parameters and skeletal muscle parameters in young healthy women in a double-blind, randomized, placebo-controlled trial. Treatment: Ten weeks of transdermal treatment with testosterone cream 10 mg daily or placebo cream in a randomized design (1:1). Primary outcome: Aerobic performance (running time to exhaustion on treadmill) Secondary outcomes: 1. Submaximal work on treadmill (oxygen uptake, ventilation, heart rate, blood lactate and subjective rate of exhaustion) 2. Anaerobic performance (Wingate test) 3. Muscle strength (Cybex apparatus, force transducer, counter movement jump) 4. Body composition (Dual X-ray Absorptiometry: muscle mass, fat mass, bone mass) 5. Behaviour and well-being (Quality of life, Profile of mood state, Confidence Questionnaire, Aggression Questionnaire) 6. Blood parameters (hemoglobin, hematocrit, reticulocytes, ferritin, CRP) 7. Steroid hormone profile in blood and urine 8. Gynecological evaluation (ovarian and endometrial variables on ultrasound) 9. Skeletal muscle morphology, metabolic enzymes and muscle protein synthesis Study population: Fifty healthy menstruating women will be included in the study and randomized to treatment with testosterone or placebo. Inclusion criteria: 18-35 yrs of age; body mass index (BMI) 19-25; non-smoking; a moderate to high self-reported level of recreational physical activity; not taking hormonal contraception and willing to use highly efficient non-hormonal contraception during the study (intrauterine device, bilateral tubal occlusion, vasectomised partner, same-sex partner, or sexual abstinence); accepting to not participate in any sports competitive event during the study period plus one month. Exclusion criteria: the presence of cardiovascular, liver, biliary or renal disease; hyperlipidemia; uncontrolled high blood pressure; endocrinological disorder; oligomenorrhea (menstrual intervals of more than 6 weeks) or amenorrhea (no menstruation for at least 3 months); pregnancy; a history of thromboembolic disorder; any malignancy; and intake of hormonal contraception the last two months prior to the study.
The main goal of this project to investigate the psychological processes underlying moral judgments in social dilemmas. We will examine neuroendocrine determinants of moral judgment by investigating the effects of exogenous testosterone
The purpose of this study is to determine whether a proprietary 'testosterone-boosting' supplement, when used as recommended by the manufacturer, results in an increase in testosterone levels as measured by a salivary free testosterone assay.
This is a prospective biobank set up to collect serum from patients with disorders associated with changes in androgens, estrogens or sex hormone-binding globulin (SHBG), before and/or after treatment.
It is generally accepted that chemical testing of biologic fluids is the most objective means of diagnosis of drug use. In recent years saliva has attracted much attention. The prime advantage of saliva is that it offers non-invasive, stress-free and real-time repeated sampling whereas blood collection is undesirable, difficult and expensive. In addition, it is known that androgens such as testosterone can be assayed in saliva, as these steroids pass the endothelial-epithelial barriers by passive diffusion. Nevertheless, the correlations of blood, urine and saliva concentrations are not well documented. In recent reviews, it is pointed out that salivary hormone analysis could be a promising method for sports medicine and doping control, but much work is needed before the use of saliva samples in this area receives the acceptance. According to recent studies the increase of testosterone concentration in saliva is significantly higher than alterations of steroid concentrations (or ratios) in blood or urine. Saliva concentration may therefore serve as screening parameter to select suspicious cases for further target evaluation (e.g. by IRMS). This may be beneficial to identify cases of transdermal administration of low steroid doses. It is therefore the aim of the present project to detect administered testosterone in saliva and compare these levels to those in blood and urine. The intention is not to detect high dosage but low dosage abuse of testosterone, as a single-dose by patch application. From the practical point of view saliva could offer a complementary specimen for a pre-screening of testosterone. So it could be assumed that salivary testosterone exceed upon plasma and/or urine levels. So the present study could be the base for a new method to preselect the suspicious samples for testosterone abuse.