Demographic and Clinical Correlates of Patient-Reported Improvement in Sex Drive, Erectile Function, and Energy With Testosterone Solution 2%

Single-arm study of testosterone gel replacement therapy and ambulatory blood pressure outcomes in men with hypogonadism

BACKGROUND AND OBJECTIVE

Studies examining ambulatory blood pressure (BP) response to testosterone replacement therapy are needed owing to inconsistent prior findings across formulations. This study assessed testosterone gel 1.62% and 24-h ambulatory BP.

MATERIALS AND METHODS

Single-arm non-inferiority trial (NCT04274894) conducted at 36 US sites enrolled 246 men with hypogonadism (mean age, 57.6 years; mean office systolic/diastolic BP [SBP/DBP], 129.8/79.5 mm Hg) who were treated for 16 weeks with once-daily testosterone gel treatment (starting dose, 40.5 mg/day; min, max dose, 20.25, 81.0 mg/day) to achieve testosterone concentration of 350-750 ng/dL. Main outcome measures included mean change in 24-h average SBP (primary endpoint) and DBP from baseline to week 16. The non-inferiority threshold was a two-sided 95% confidence interval (CI) upper limit <3.0 mm Hg for 24-h average SBP.

RESULTS

Increase in mean ± SD serum testosterone concentration to a physiologic level (baseline, 244.4 ± 93.9 ng/dL; week 16, 502.5 ± 394.4 ng/dL) was associated with a 1.9-mm Hg mean change in 24-h average SBP observed in the primary analysis (baseline, 123.5 mm Hg; week 16, 125.4 mm Hg; 95% CI, 0.63-3.13 mm Hg; n = 169). As the upper CI limit modestly exceeded the non-inferiority margin (3 mm Hg), study drug effect on SBP could not be ruled out. Non-inferiority was observed in subgroups without hypertension or diabetes (95% CI, upper limit <3.0 mm Hg) and was not observed in those with hypertension or diabetes. Daytime SBP and DBP changes were larger compared with nighttime. No clear cardiovascular adverse events or new safety signals were identified.

DISCUSSION AND CONCLUSIONS

While the effect of testosterone gel 1.62% on 24-h average SBP could not be ruled out based on the study's non-inferiority margin, the clinical relevance of the small-magnitude mean increase of 1.9 mm Hg is anticipated to be minimal considering the results of the TRAVERSE study of testosterone gel 1.62% and major adverse cardiac events.

CLINICAL TRIAL INFORMATION

ClinicalTrials.gov identifier: NCT04274894 (registered February 17, 2020).

Ambulatory Blood Pressure Parameters Among Men With Hypogonadism Treated With Testosterone Transdermal Therapy

OBJECTIVE

Studies are needed to examine the effects of testosterone replacement therapy on ambulatory blood pressure (BP) parameters. This study assessed a testosterone transdermal system (TTS) using 24-hour ambulatory BP monitoring.

METHODS

In a single-arm, noninferiority trial conducted at 41 US sites, 168 men (mean age: 56.2 years) with hypogonadism not receiving testosterone replacement therapy in the past 6 months were enrolled and received ≥1 study drug dose. Nightly TTS treatment was administered for 16 weeks (starting dose: 4 mg/d; min, max dose: 2, 6 mg/d) to achieve testosterone concentration of 400-930 ng/dL. The primary endpoint was mean change from baseline to week 16 in 24-hour systolic BP (SBP). Noninferiority was determined based on the upper bound of the 2-sided 95% CI <3.0 mmHg.

RESULTS

Sixty-two men had ≥85% study drug compliance and a valid week 16 ambulatory BP monitoring session. Mean change from baseline to week 16 in 24-hour average SBP was 3.5 mmHg (95% CI, 1.2-5.8 mmHg; n = 62). Since the upper limit of the CI was >3 mmHg, an effect of TTS could not be ruled out. Mean changes were larger at daytime vs nighttime and in subgroups of men with vs without hypertension. Cardiovascular adverse events were rare (<2%) and nonserious; no major cardiovascular adverse events were reported.

CONCLUSION

A meaningful effect of 16-week TTS treatment on 24-hour average SBP among men with hypogonadism could not be ruled out based on the study's noninferiority criterion. The magnitude of mean changes observed may not be clinically meaningful regarding cardiovascular events.

Testosterone replacement in men with sexual dysfunction

BACKGROUND

Clinical practice guidelines recommend testosterone replacement therapy (TRT) for men with sexual dysfunction and testosterone deficiency. However, TRT is commonly promoted in men without testosterone deficiency and existing trials often do not clearly report participants' testosterone levels or testosterone-related symptoms. This review assesses the potential benefits and harms of TRT in men presenting with complaints of sexual dysfunction.

OBJECTIVES

To assess the effects of testosterone replacement therapy compared to placebo or other medical treatments in men with sexual dysfunction.

SEARCH METHODS

We performed a comprehensive search of CENTRAL (the Cochrane Library), MEDLINE, EMBASE, and the trials registries ClinicalTrials.gov and World Health Organization International Clinical Trials Registry Platform, with no restrictions on language of publication or publication status, up to 29 August 2023.

SELECTION CRITERIA

We included randomized controlled trials (RCTs) in men (40 years or over) with sexual dysfunction. We excluded men with primary or secondary hypogonadism. We compared testosterone or testosterone with phosphodiesterase-5 inhibitors (PDEI5I) to placebo or PDE5I alone.

DATA COLLECTION AND ANALYSIS

Two review authors independently screened the literature, assessed the risk of bias, extracted data, and rated the certainty of evidence (CoE) according to GRADE using a minimally contextualized approach. We performed statistical analyses using a random-effects model and interpreted them according to standard Cochrane methodology. Predefined primary outcomes were self-reported erectile dysfunction assessed by a validated instrument, sexual quality of life assessed by a validated instrument, and cardiovascular mortality. Secondary outcomes were treatment withdrawal due to adverse events, prostate-related events, and lower urinary tract symptoms (LUTS). We distinguished between short-term (up to 12 months) and long-term (> 12 months) outcomes.

MAIN RESULTS

We identified 43 studies with 11,419 randomized participants across three comparisons: testosterone versus placebo, testosterone versus PDE5I, and testosterone with PDE5I versus PDE5I alone. This abstract focuses on the most relevant comparison of testosterone versus placebo. Testosterone versus placebo (up to 12 months) Based on a predefined sensitivity analysis of studies at low risk of bias, and an analysis combing data from the similar International Index of Erectile Function (IIEF-EF) and IIEF-5 instruments, TRT likely results in little to no difference in erectile function assessed with the IIEF-EF (mean difference (MD) 2.37, 95% confidence interval (CI) 1.67 to 3.08; I² = 0%; 6 RCTs, 2016 participants; moderate CoE) on a scale from 6 to 30 with larger values reflecting better erectile function. We assumed a minimal clinically important difference (MCID) of greater than or equal to 4. TRT likely results in little to no change in sexual quality of life assessed with the Aging Males' Symptoms scale (MD -2.31, 95% CI -3.63 to -1.00; I² = 0%; 5 RCTs, 1030 participants; moderate CoE) on a scale from 17 to 85 with larger values reflecting worse sexual quality of life. We assumed a MCID of greater than or equal to 10. TRT also likely results in little to no difference in cardiovascular mortality (risk ratio (RR) 0.83, 95% CI 0.21 to 3.26; I² = 0%; 10 RCTs, 3525 participants; moderate CoE). Based on two cardiovascular deaths in the placebo group and an assumed MCID of 3%, this would correspond to no additional deaths per 1000 men (95% CI 1 fewer to 4 more). TRT also likely results in little to no difference in treatment withdrawal due to adverse events, prostate-related events, or LUTS. Testosterone versus placebo (later than 12 months) We are very uncertain about the longer-term effects of TRT on erectile dysfunction assessed with the IIEF-EF (MD 4.20, 95% CI -2.03 to 10.43; 1 study, 42 participants; very low CoE). We did not find studies reporting on sexual quality of life or cardiovascular mortality. We are very uncertain about the effect of testosterone on treatment withdrawal due to adverse events. We found no studies reporting on prostate-related events or LUTS.

AUTHORS' CONCLUSIONS

In the short term, TRT probably has little to no effect on erectile function, sexual quality of life, or cardiovascular mortality compared to a placebo. It likely results in little to no difference in treatment withdrawals due to adverse events, prostate-related events, or LUTS. In the long term, we are very uncertain about the effects of TRT on erectile function when compared to placebo; we did not find data on its effects on sexual quality of life or cardiovascular mortality. The certainty of evidence ranged from moderate (signaling that we are confident that the reported effect size is likely to be close to the true effect) to very low (indicating that the true effect is likely to be substantially different). The findings of this review should help to inform future guidelines and clinical decision-making at the point of care.

Adult Male Hypogonadism: A Laboratory Medicine Perspective on Its Diagnosis and Management

Testosterone (T), the principal androgen secreted by the testes, plays an essential role in male health. Male hypogonadism is diagnosed based on a combination of associated clinical signs and symptoms and laboratory confirmation of low circulating T levels. In this review, we have highlighted factors, both biological and analytical, that introduce variation into the measurement of serum T concentrations in men; these need to be considered when requesting T levels and interpreting results. There is an ongoing need for analytical standardisation of T assays and harmonisation of pre- and post-analytical laboratory practices, particularly in relation to the laboratory reference intervals provided to clinicians. Further, there is a need to share with service users the most up-to-date and evidence-based action thresholds for serum T as recommended in the literature. Estimation of free testosterone may be helpful. Causes of secondary hypogonadism should be considered. A comprehensive approach is required in the management of male hypogonadism, including lifestyle modification as well as medication where appropriate. The goal of treatment is the resolution of symptoms as well as the optimisation of metabolic, cardiovascular, and bone health. The advice of an endocrinologist should be sought when there is doubt about the cause and appropriate management of the hypogonadism.

Leflutrozole in male obesity-associated hypogonadotropic hypogonadism: Ph 2b double-blind randomised controlled trial

OBJECTIVE

Assessment of the efficacy and safety/tolerability of the aromatase inhibitor leflutrozole to normalise testosterone in Obesity-associated Hypogonadotropic Hypogonadism (OHH).

DESIGN

Placebo-controlled, double-blind, RCT, in 70 sites in Europe/USA.

METHODS

Patient inclusion criteria: men with BMI of 30-50 kg/m2, morning total testosterone (TT) < 10.41 nmol/L, and two androgen deficiency symptoms (at least one of sexual dysfunction). Patients randomised to weekly leflutrozole (0.1/0.3/1.0 mg) or placebo for 24 weeks. Primary endpoint: normalisation of TT levels in ≥75% of patients after 24 weeks. Secondary endpoints (included): time to TT normalisation and change in LH/FSH. Safety was assessed through adverse events and laboratory monitoring.

RESULTS AND CONCLUSIONS

Of 2103 screened, 271 were randomised, 81 discontinued. Demographic characteristics were similar across groups. Mean BMI was 38.1 kg/m2 and TT 7.97 nmol/L. The primary endpoint was achieved in all leflutrozole-treated groups by 24 weeks with a dose-tiered response; mean TT 15.89; 17.78; 20.35 nmol/L, for leflutrozole 0.1 mg, 0.3 mg, and 1.0 mg groups respectively, vs 8.04 nmol/L for placebo. LH/FSH significantly increased in leflutrozole vs placebo groups. No improvements in body composition or sexual dysfunction were observed. Semen volume/total motile sperm count improved with leflutrozole vs placebo. Treatment-emergent adverse events, more common in leflutrozole-treated groups included, raised haematocrit, hypertension, increased PSA, and headache. Some reduction in lumbar bone density was observed with leflutrozole (mean -1.24%, -1.30%, -2.09%) and 0.66% for 0.1 mg, 0.3 mg, 1.0 mg, and placebo, respectively, without change at the hip. This RCT of leflutrozole in OHH demonstrated normalisation of TT in obese men. FSH/LH and semen parameter changes support that leflutrozole may preserve/improve testicular function.

CLINICAL TRIAL REGISTRATION NUMBER

NCT02730169.

[Testosterone replacement treatment in older people with and without co-morbidities]

Testosterone is a natural hormone which is essential to maintaining physical and emotional wellbeing in men, regardless of age. Male hypogonadism is an endocrine condition of testosterone deficiency with the potential to cause multiple morbidities and psychosocial problems. The condition can be of primary (testicular), secondary (hypothalamic-pituitary) or so-called functional origin (as a result of inflammatory conditions, obesity or chronic illness). Testosterone deficiency can cause symptoms of a sexual nature, foster metabolic dysfunction and impair physical abilities as well as cause osteopenia/osteoporosis and anemia. Testosterone replacement therapy should not be initiated in the case of desired paternity, unclear processes of the prostate or mammary gland and high hematocrit. Diagnosis and treatment as well as monitoring of hypogonadism treatment are clearly regulated by international guidelines and replacement therapy is proven to be effective in ameliorating the above-mentioned symptoms when performed according to these guidelines. In functional hypogonadism, which is most often, but not exclusively, found in older men, treatment of the underlying condition/co-morbidity is mandatory prior to starting testosterone substitution.

What are the benefits and harms of testosterone therapy for male sexual dysfunction?-a systematic review

The role of Testosterone Therapy (TTh) in the management of male sexual dysfunction remains unclear. Objective of the authors was to systematically review the relevant literature assessing the benefits and harms of TTh in men with sexual dysfunction. EMBASE, MEDLINE, Cochrane Systematic Reviews-Cochrane Central Register of Controlled Trials (CENTRAL) (Cochrane HTA, DARE, HEED), Google Scholar, WHO international Clinical Trials Registry Platform Search Portal, CINAHL databases and clinicaltrial.gov were searched systematically in March 2015 and an updated search was performed in March 2016. Randomized and non-randomized comparative studies assessing the benefits and harms of TTh in hypogonadal, borderline eugonadal and eugonadal men suffering from sexual dysfunction were included. Risk of bias and confounding assessments were performed. A narrative synthesis was undertaken. Of the 6410 abstracts identified, 36 studies were judged to be eligible for inclusion, including 25 randomized clinical trials (RCTs) and 11 non-randomized comparative studies (NRCSs), recruiting a total of 4944 patients. RCTs were judged to have low or unclear risk of bias, while NRCSs had high risk of bias and thus, overall quality of evidence was judged to be at least unclear. Based on the evidence mainly provided by the RCTs included in this systematic review, TTh could be considered for men with low or low-normal testosterone levels and problems with their sexual desire, erectile function and satisfaction derived from intercourse and overall sexual life. The exact testosterone formulation, dosage and duration of treatment remain to be clarified, while the safety profile of TTh also remains unclear. TTh could be used with caution in hypogonadal and most probably borderline eugonadal men to manage disorders of sexual desire, erectile function and sexual satisfaction. The overall low-to-moderate evidence quality highlights the need for robust and adequately designed clinical trials.

Effects of liraglutide on obesity-associated functional hypogonadism in men

Lifestyle measures (LSMs) should be the first-line approach offered for obesity-related functional hypogonadism (FH). When LSMs fail, the role of testosterone replacement treatment (TRT) is unclear. GLP1 receptor agonist liraglutide is linked to progressive and sustained weight loss. A potential direct impact of GLP1 on hypothalamus-pituitary-testicular (HPT) axis was reported in animal models. We aimed to compare the effects of liraglutide and TRT on FH in obese men that had been poor responders to LSM, by means of reversal of FH and weight reduction. We designed a 16-week prospective randomized open-label study with 30 men (aged 46.5 ± 10.9 years, BMI 41.2 ± 8.4 kg/m2, mean ± s.d.) that were randomized to liraglutide 3.0 mg QD (LIRA) or 50 mg of 1% transdermal gel QD (TRT). Sexual function and anthropometric measures were assessed. Fasting blood was drawn for determination of endocrine and metabolic parameters followed by OGTT. Model-derived parameters including HOMAIR and calculated free testosterone (cFT) were calculated. Total testosterone significantly increased in both arms (+5.9 ± 7.2 in TRT vs +2.6 ± 3.5 nmol/L in LIRA) and led to improved sexual function. LIRA resulted in a significant increase of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) (P < 0.001 for between-treatment effect). Subjects treated with LIRA lost on average 7.9 ± 3.8 kg compared with a 0.9 ± 4.5 kg loss in TRT (P < 0.001). Metabolic syndrome was resolved in two patients in LIRA and in no subjects in TRT. Liraglutide was superior to TRT in improving an overall health benefit in men with obesity-associated FH after LSM failed.

Molecular basis of androgen action on human sexual desire

Reproduction is a fundamental process for the species maintenance and the propagation of genetic information. The energy expenditure for mating is overtaken by motivational stimuli, such as orgasm, finely regulated by steroid hormones, gonadotropins, neurotransmitters and molecules acting in the brain and peripheral organs. These functions are often investigated using animal models and translated to humans, where the androgens action is mediated by nuclear and membrane receptors converging in the regulation of both long-term genomic and rapid non-genomic signals. In both sexes, testosterone is a central player of this game and is involved in the regulation of sexual desire and arousal, and, finally, in reproduction through cognitive and peripheral physiological mechanisms which may decline with aging and circadian disruption. Finally, genetic variations impact on reproductive behaviours, resulting in sex-specific effect and different reproductive strategies. In this review, androgen actions on sexual desire are evaluated, focusing on the molecular levels of interaction.

Testosterone therapy improves erectile function and libido in hypogonadal men

PURPOSE OF REVIEW

Erectile dysfunction and decreased libido are common complaints in the older male population. Recent studies have elucidated the role testosterone therapy (TTh) can play in men with low testosterone levels. The aim of this review is to provide an overview of these findings and the utility of TTh. We specifically examine the role of TTh on erectile function, coadministration with phosphodiesterase type 5 inhibitors, and libido.

RECENT FINDINGS

Recent publications suggest that TTh improves mild erectile dysfunction, though may be less useful in men with more severe erectile dysfunction. In men unresponsive to phosphodiesterase type 5 inhibitors and with mild erectile dysfunction, TTh can further improve erectile function. TTh has also shown consistent benefit in improving libido in men with low testosterone levels at baseline, with no additional improvements once testosterone levels are normalized.

SUMMARY

The available literature supports a role for TTh in men with low testosterone levels, erectile dysfunction, and low libido, with symptomatic improvement in these men.

Testosterone and sexual function in men

Testosterone (T) is deeply involved in every step of the male sexual response. However, the occurrence of sexual disorders cannot be automatically related to a decline in T levels. In fact, this relationship is complicated by organic, relational and psychological factors, which can independently impair sexual function. For example, it is recognized that erectile dysfunction (ED) can result from vascular damage as well as from low levels of T. T therapy (TTh) can improve sexual function but meta-analyses show that it improves erectile function only in men with ED and overt hypogonadism. Similarly, impaired sexual desire can result from a wide range of organic, relational and psychological factors, although it is recognized as one of the most specific symptoms of hypogonadism. Accordingly, low desire is improved by TTh in men with overt hypogonadism. The association between low T levels and delayed ejaculation has not been well studied and needs further confirmation, as does the role of TTh in such cases. Meta-analyses have found that TTh can improve orgasmic function in hypogonadal men. Clinicians should bear in mind that sexual dysfunctions have multifactorial causes and hypogonadism represents only one of these. Only hypogonadal men are likely to improve their sexual symptoms when treated with TTh. The assessment of serum T levels is mandatory before patients are prescribed TTh, as are the assessment and possible treatment of other concomitant conditions.

The efficacy and adverse events of testosterone replacement therapy in hypogonadal men: A systematic review and meta-analysis of randomized, placebo-controlled trials

CONTEXT

The efficacy and safety of testosterone replacement therapy (TRT) in hypogonadal men remain incompletely understood.

OBJECTIVE

To conduct a systematic review and meta-analysis of randomized clinical trials (RCT) to determine the effects of TRT on patient-important outcomes and adverse events in hypogonadal men.

DATA SOURCES

We searched Ovid MEDLINE, Ovid EMBASE, Ovid Cochrane Database of Systematic Reviews, Ovid Cochrane Central Register of Controlled Trials, and Scopus from inception to March 2th, 2017.

STUDY SELECTION

RCTs that assessed the efficacy and adverse events of TRT of at least 12 weeks compared with placebo in adult men with hypogonadism, defined by morning testosterone ≤300 ng/dL and at least one symptom or sign of hypogonadism.

DATA EXTRACTION

Reviewers working independently and in duplicate assessed the quality of the trials and collected data on patient characteristics, interventions, and outcomes.

DATA SYNTHESIS

We found 11 publications, reporting on 4 eligible trials (including 1,779 patients) at low risk of bias. Compared to placebo, TRT was associated with a small but significant increase in sexual desire or libido [standardized mean difference (SMD): 0.17, 95% CI 0.01, 0.34] (n=1383), erectile function [SMD: 0.16, 95% CI 0.06, 0.27] (n=1344), and sexual satisfaction [SMD: 0.16, 95% CI 0.01, 0.31] (n=676), but had no effect on energy or mood. TRT was associated with an increased risk of developing erythrocytosis [relative risk: 8.14, 95% CI: 1.87, 35.40] (n=1579) compared to placebo, but had no significant effect on lower urinary tract symptoms (LUTS).

CONCLUSION

In hypogonadal men TRT improves sexual desire, erectile function, and sexual satisfaction, however it increases the risk of erythrocytosis.