View clinical trials related to Hypogonadism, Male.
Filter by:HIV infection is associated to premature decline of serum testosterone. However, prevalence and biochemical characterization of hypogonadism in HIV-infected men are still to be well defined. HIV-infection is strongly associated to erectile dysfunction in men, but preliminary data suggest that it is poorly associated with serum testosterone in this context.
The study is designed to identify and validate new protein biomarkers in blood related to testosterone activity. Thirty healthy young males underwent pharmaceutical castration to lower testosterone levels. After three weeks the subjects received an intramuscular injection of testosterone undecanoate. Blood samples from just before pharmaceutical castration, three weeks after castration, and one week after injection of testosterone undecanoate were collected representing normal testosterone levels, low testosterone levels, and testosterone at eugonadal levels.
This study examines the effect of 12-week strength training program with and without testosterone replacement therapy (TRT) on body composition, physical function, selected biochemical markers of metabolic health, molecular parameters of training adaptation and the quality of life patients with ADAM. The investigators believe, that strength training program performed 2 times per week for 12 weeks can improve body composition (decrease fat mass and gain lean mass), muscle strength, muscle power and general quality of life in all training groups. In addition, combination TRT and strength training could help decrease fat mass, improve BMI, cardio-respiratory fitness and thus provide optimal therapy combination for hypogonadal ageing males.
We have in a pilot study found that serum calcium levels change in response to hCG stimulation test. We observed that serum calcium level measured at baseline and 72 hours after hCG stimulation were different in men with gonadal insufficiency referred for this stimulation test. Now we want to investigate a large cohort of men referred for hCG stimulation test due to suspected impaired gonadal function.
Multicenter, open-label, one treatment study evaluating the efficacy of LPCN 1021 in adult hypogonadal male subjects.
This is a multicenter, open-label, one treatment study evaluating the efficacy of LPCN 1021 in adult hypogonadal male subjects.
Low testosterone affects more than 10% of men worldwide, with high incidence in the elderly.This will be a prospective case study. The investigators will identify men with hypogonadism in our clinic interested in Natesto for testosterone replacement therapy (TRT). Natesto is a relatively new form of testosterone replacement therapy that is delivered intranasal to men diagnosed with low testosterone. Current advantages to Natesto include ease of delivery and decreased risk of transference. Recently Natesto 4.5% (125 uL/nostril, 11.0mg testosterone/dose), three times a day (TID) dosing was shown to also increase serum testosterone while maintaining normal, though decreased, serum levels of Luteinizing Hormone (LH) and Follicle-Stimulating Hormone(FSH). 40 participants will be enrolled and receive treatment with Natesto.The study will identify men with confirmed hypogonadism (testosterone (T) <350 on 2 consecutive Testosterone samples collected greater than 1.5 hours apart between 6am and 10am with demonstrated symptoms of hypogonadism). Participants with a history of prostate cancer, testis cancer, azoospermia, or genetic cause of hypogonadism will be excluded.
This will be a randomized, multicenter, open-label, active-controlled, efficacy, and safety study in adult hypogonadal men. The study duration is 12 months (365 days), including a 90-day, open-label efficacy period and a 9-month (275-day) safety evaluation period.
In this randomized, crossâover study 20 subjects who are undergoing testosterone (T) therapy for the treatment of T deficiency will receive both subcutaneous testosterone therapy and intramuscular testosterone therapy. One group will receive a SQ injection followed by an IM injection and one group will receive an IM injection followed by a SQ injection. The primary objective of this study is to measure testosterone concentration in men after these two treatment routes and determine if there are any significant differences due to modes of administration. Endpoints will include total serum testosterone and calculated free testosterone. A questionnaire will also be administered to assess overall patient experience with each route of administration.
This study aims to explore whether men with low testosterone levels, due to altered brain regulation of male hormone function, who have been previously treated with testosterone, respond as well as men who have not been so treated to clomiphene citrate, an agent commonly used for female infertility that has been shown to improve male hormone secretion in some cases.