An Open Labeled RCT on the Effect of Additional hCG Injection for LPS on Pregnancy Outcomes in IHH...
Luteal Phase DeficiencyLuteal Phase Support1 moreLuteal phase deficiency (LPD) accounts for most failures of assistant artificial reproduction (ART) and early pregnancy loss for patients with idiopathic hypogonadotropic hypogonadism (IHH). Luteal phase support (LPS) is one of the indispensable interventions in ART treatments for IHH patients, which includes progestin, estrogen, human chorionic gonadotropin (hCG), and GnRH agonists (GnRHa). We aim to verify additional hCG injection 48 hours following routine hCG trigger and ovulation for LPS on the basis of supplementation of estrogen and dydrogesterone could improve clinical pregnancy rate, cumulative pregnancy rate, live birth rate and the prevalence of early pregnancy loss and ovarian hyperstimulation syndrome (OHSS) by an open labeled, prospective, and randomized clinical trial (RCT) in IHH patients in a single center.
Efficacy of Testosterone Gel to Restore Normal Serum Values of Testosterone During the Acute Phase...
Hypermetabolism in ICULoss of Muscle Mass3 moreCritically ill patients experience major insults that lead to increased protein catabolism. Hypermetabolism occurs early and rapidly during the first week of critical illness to provide amino acids for the production of energy via gluconeogenesis, and also for the synthesis of acute phase proteins and repair of tissue damage. During acute phase, neuroendocrine and inflammatory responses promote protein breakdown and amino acid release. Under stress conditions, protein synthesis cannot match the increased rate of muscle proteolysis because of a state of anabolism resistance, which limits uptake of amino acids into muscles. Hypermetabolism results in a significant loss of lean body mass with an impact on weaning from the ventilator and muscle recovery. Functional disability may be long term sometimes with no full return to normal. In critically ill patients, severe and persistent testosterone deficiency is very common and is observed early after ICU admission. This acquired hypogonadism promotes the persistent loss of skeletal muscle protein and is related to poor outcome. Administration of testosterone induces skeletal muscle fiber hypertrophy, decreases protein breakdown in healthy young men and burned patients. It has been repeatedly shown that testosterone treatment enhances muscle mass and strength in young and older hypogonadal men and women and can improve physical performance.
Efficacy and Safety of Long Term Use of hCG or hCG Plus hMG in Males With Isolated Hypogonadotropic...
Isolated Hypogonadotropic HypogonadismKallmann Syndrome1 moreThis study will evaluate the efficacy and safety of long term use of hCG alone or hCG plus hMG in the treatment of male patients with isolated hypogonadotropic hypogonadism (IHH). One third of the participants will receive hCG treatment alone and the other third of the participants will receive hCG treatment alone for six months, then the hMG will be added. And the last third of the participants will receive hCG and hMG treatment since the beginning of the treatment.
Testosterone Therapy and Bone Quality in Men With Diabetes and Hypogonadism
Type 2 Diabetes MellitusHypogonadismLow 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.
Testosterone Treatment in Men With Chronic Kidney Disease
HypogonadismMale2 moreThis 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).
Aromatase Inhibitors and Weight Loss in Severely Obese Men With Hypogonadism
HypogonadismHypogonadotropic1 moreThe investigators have preliminary data suggesting that obese patients with hypogonadotropic hypogonadism (HHG) have minimal benefit from testosterone therapy likely because of its conversion to estradiol by the abundant aromatase enzyme in the adipocytes. The increased conversion of androgens into estrogens in obese men results in a negative feedback of high estradiol levels on hypothalamus and pituitary, inhibiting the production of gonadotropin-releasing hormone (GnRH), luteinizing hormone (LH) and follicle stimulating hormone (FSH) and, as a consequence, of testosterone by the testis. Testosterone administration could increase estradiol production, further promoting the inhibitory feedback to the hypothalamic-pituitary-gonadal axis. Although weight loss from lifestyle modification has been shown to reduce estradiol and increase testosterone levels, the effect is at best modest and weight regain results in recurrence of hypogonadism. The use of aromatase inhibitors, in combination with weight loss, could be an effective alternative strategy due to its action at the pathophysiology of the disease. Intervention Subjects (body mass index of ≥35, testosterone <300 ng/dl) will be randomized to the active (anastrozole) or control (placebo) group. Anastrozole 1 mg tablet / day will be self-administered with or without food, at around the same time every day (active group); placebo 1 tablet/day with or without food to take at around the same time every day (control group). The study duration will be 12 months. Both groups will undergo lifestyle intervention consisting of diet and supervised exercise program. Target weight loss will be at least 10% of baseline body weight during the intervention. Subjects will attend weekly group behavior modification sessions which will last ~75-90 min for the first 3 months and decreased to every two weeks from 3 to 12 months. Subjects will attend supervised research center-based exercise sessions during the first 6 months followed by community fitness center-based sessions during the next 6 months for at least 2 d/wk, with recording of home-based exercises for the other 2-4 days/week.
Impact of Peri-operative tEstosterone Levels on oNcological and Functional Outcomes in RadiCal prostatEctomy...
Prostatic NeoplasmsHypogonadism1 moreSexual dysfunction is a common side effect of radical prostatectomy (RP) and has a significant negative impact on quality of life. With age the testosterone level in men declines; around 30% of men over 70 years of age meet the criteria of testosterone deficiency (TD). The negative impact of both TD and RP on sexual performance are likely to add up. The aim of this study is to assess the efficacy and safety of testosterone replacement therapy (TRT) on functional and oncological outcomes in testosterone deficient men following RP for prostate cancer (PCa).
Physical Exercise as a Sustainability Tool in Men With Dysmetabolic Hypogonadism
HypogonadismMale5 moreAim of this project is to delineate sustainable physical exercise programs and to assess the effects of such programs mainly on endocrine-metabolic and neurovegetative outcomes in a cohort of men with metabolic syndrome-related late-onset central hypogonadism. Participants will undergo a personalised exercise program. After 6 months they will be subdivided into two groups, according to the weekly physical activity volume actually performed (above or below 600 MET·minutes/week). Changes in endocrine-metabolic and neurovegetative outcomes will be compared between the two groups.
A Randomized, Double-blinded, Clinical, Placebo-controlled Trial on the Effects of Therapy With...
HypogonadismHypogonadism2 moreThe overall objective of this randomized trial is to investigate the effects of treatment of AAS- induced male hypogonadism with combined therapy of letrozole and hCG compared with placebo on reproductive hormone levels, adherence to cessation of AAS use, fertility, cardiac function and quality of life.
Rec-LH PD and Safety Profile in Hypogonadotropic Hypogonadism Men
Acquired Hypogonadotropic HypogonadismObjectives: The overall clinical question is whether LH supplementation to men in indication for FSH according to the AIFA note 74, or with HH, will improve spermatogenesis and pregnancy rate (spontaneous or after ART) over FSH alone or FSH+hCG. However, since LH has never been used in men so far, the first, specific object of this study is the assessment of pharmacodynamics and safety profile of LH in HH men. To this end, this study will evaluate the pharmacodynamics and safety profile of recombinant LH (Luveris) and compare the response to Luveris and urinary hCG (Gonasi HP) in HH men. The pharmacodynamics will be assessed primarily for testosterone levels in response to increasing doses of LH and the comparison of the response to a fix dose of hCG, and later for more extend steroid profile. Methods: Multicentre longitudinal, interventional, randomized, open-label, phase II, clinical trial, assessing pharmacodynamics of LH in acquired HH men. The statistical hypothesis is non-inferiority of the highest LH dose employed compared to a fix hCG dose. Primary endpoint: serum testosterone levels evaluated by liquid-chromatography, tandem mass spectrometry (LC-MS/MS). Secondary endpoints: Safety and tolerability as determined by AE reporting, vital signs, and ECG, stereognosis (inhibin B, free testosterone, sex hormone binding globulin (SHBG), estradiol, whole steroid profile provided by LC-MS/MS) and testicular volume. Patients: 32 men with acquired HH, including HH after neurosurgery for tumours or HH due to pituitary adenoma-related mass effect. Patients will be randomized (1:1) according to a permuted- blocks randomization list, to the study group, treated with Luveris (increasing doses at two weekly intervals), or to the control group treated with Gonasi HP (2000 IU twice/week). In the study group, increasing LH dosages will be administered to obtain a testosterone dose-response curve, starting with the minimum expected efficient dose (75 IU/d, sc) for two weeks followed by 150, 225 and 300 IU at two-weekly interval, respectively. The control group will be treated by the standard approach, i.e. hCG 2000 IU IM twice-weekly for 8 weeks. Patients will be further followed up for 4 weeks after treatment withdrawal. During the study, the patients will be evaluated two times per week during the treatment phase and every two weeks in the follow-up phase.