Rajib K. Bhattacharya

Risedronate Prevents Bone Loss in Breast Cancer Survivors: A 2-Year, Randomized, Double-Blind, Placebo-Controlled Clinical Trial

PURPOSE Limited data are available on the efficacy of oral bisphosphonate therapy in breast cancer survivors. Our goal was to examine prevention of breast cancer-related bone loss in this cohort. PATIENTS AND METHODS Eighty-seven postmenopausal women after chemotherapy for breast cancer were randomly assigned to once-weekly risedronate 35 mg or placebo for 24 months. Outcomes included bone mineral density (BMD) and turnover markers. RESULTS At study initiation, 13% of patients were on an aromatase inhibitor (AI). After 24 months, there were differences of 1.6 to 2.5% (P < .05) at the spine and hip BMD between the placebo and risedronate groups. At study completion, 44% were on an AI. Adjusting for an AI, women on placebo plus AI had a decrease in BMD of (mean +/- SE) 4.8% +/- 0.8% at the spine and 2.8% +/- 0.5% at the total hip (both P < .001). In women on risedronate + AI, the spine decreased by 2.4% +/- 1.1% (P < .05) and was stable at the hip. Women in the placebo group not on an AI, maintained BMD at the spine, and had a 1.2% +/- 0.5% loss at the total hip (P < .05). Women who received risedronate but no AI had the greatest improvement in BMD of 2.2% +/- 0.9% (P < .05) at the total hip. Bone turnover was reduced with risedronate. There were no differences in adverse events between the groups. CONCLUSION We conclude that in postmenopausal women with breast cancer with or without AI therapy, once-weekly oral risedronate was beneficial for spine and hip BMD, reduced bone turnover, and was well tolerated.

Improved Sexual Function with Testosterone Replacement Therapy in Hypogonadal Men: Real-World Data from the Testim Registry in the United States (TRiUS)

INTRODUCTION Up to 30% of erectile dysfunction (ED) patients treated with phosphodiesterase type 5 (PDE5) inhibitors do not show improved sexual function, which may be due in part to low serum testosterone. Hypogonadal patients already receiving testosterone replacement therapy (TRT) likewise can still suffer from symptoms of sexual dysfunction. In these patient populations, augmenting with, or switching, TRT treatment may improve sexual function. AIM To determine if 12-month treatment with a testosterone gel improves sexual function in hypogonadal men, as measured by the Brief Male Sexual Function Inventory (BMSFI), and in subgroups defined by low testosterone, PDE5 inhibitor use, and prior TRT. METHODS The Testim Registry in the United States (TRiUS) was a large (N = 849) multicenter registry of hypogonadal men treated with Testim (testosterone 1%) topical gel and followed for 12 months. MAIN OUTCOME MEASURES Data collected at suggested visits (baseline; 1, 3, 6, and 12 months) included total testosterone (TT), free testosterone (FT), BMSFI scores, physical exam, and body measurements. RESULTS TRiUS had 271 patients with baseline testosterone and BMSFI measurements. At 12 months of TRT, TT and FT levels significantly increased from baseline (P < 0.001), with mean ± standard deviation final TT = 17.37 ± 8.61 nmol/L (500.6 ± 248.2 ng/dL) and FT = 240.1 ± 296.0 pmol/L (69.2 ± 85.3 pg/mL). The mean total BMSFI score significantly increased from baseline at 12 months (27.4 ± 10.3 to 33.8 ± 9.8, P < 0.001) and at each visit in all domains (sex drive/libido, erectile function, ejaculatory function, level of bother), overall and for all subgroups. Regression analysis indicated that increased total BMSFI score was significantly associated with increased TT levels at 6 months. CONCLUSIONS In hypogonadal patients, 12-month administration of topical testosterone gel resulted in increased TT and FT levels and significantly improved sexual function. All subgroups studied, including men taking PDE5 inhibitors for ED and those previously on TRT, demonstrated significant improvement in sexual function from baseline scores.

Effect of 12 months of testosterone replacement therapy on metabolic syndrome components in hypogonadal men: data from the Testim Registry in the US (TRiUS)

BackgroundRecent evidence suggests that there may be a bidirectional, physiological link between hypogonadism and metabolic syndrome (MetS), and testosterone replacement therapy (TRT) has been shown to improve some symptoms of MetS in small patient populations. We examined the effect of 12 months of TRT on MetS components in a large cohort of hypogonadal men.MethodsData were obtained from TRiUS (Testim® Registry in the United States), a 12-month, multicenter, prospective observational registry (N = 849) of hypogonadal men prescribed Testim 1% testosterone gel (5-10 g/day). Data analyzed included age, total testosterone (TT), free testosterone (FT), sex hormone-binding globulin (SHBG), and MetS components: waist circumference, blood pressure, fasting blood glucose, plasma triglycerides, and HDL cholesterol.ResultsOf evaluable patients (581/849) at baseline, 37% were MetS+ (n = 213) and 63% were MetS- (n = 368). MetS+ patients had significantly lower TT (p < 0.0001) and SHBG (p = 0.01) levels. Patients with the lowest quartile TT levels (<206 ng/dL [<7.1 nmol/L]) had a significantly increased risk of MetS+ classification vs those with highest quartile TT levels (≥331 ng/dL [≥11.5 nmol/L]) (odds ratio 2.66; 95% CI, 1.60 to 4.43). After 12 months of TRT, TT levels significantly increased in all patients (p < 0.005). Despite having similar TT levels after TRT, only MetS+ patients demonstrated significant decreases in waist circumference, fasting blood glucose levels, and blood pressure; lowest TT quartile patients demonstrated significant decreases in waist circumference and fasting blood glucose. Neither HDL cholesterol nor triglyceride levels changed significantly in either patient population.ConclusionHypogonadal MetS+ patients were more likely than their MetS- counterparts to have lower baseline TT levels and present with more comorbid conditions. MetS+ patients and those in the lowest TT quartile showed improvement in some metabolic syndrome components after 12 months of TRT. While it is currently unclear if further cardiometabolic benefit can be seen with longer TRT use in this population, testing for low testosterone may be warranted in MetS+ men with hypogonadal symptoms.

The effect of testosterone supplementation on depression symptoms in hypogonadal men from the Testim Registry in the US (TRiUS)

Objective: To determine the effect of long-term testosterone replacement therapy (TRT) on depression symptoms in hypogonadal men. Methods: Data were from TRiUS, a multicenter, 12-month observational registry (N = 849) of hypogonadal men prescribed 1% testosterone gel. Measures including total testosterone (TT) were assessed at baseline and months 3, 6, and 12. Depression symptoms were measured with Patient Health Questionnaire-9 (PHQ-9), a validated self-report questionnaire. A PHQ-9 score decrease of ≥5 represents clinical improvement. Results PHQ-9 scores were available for 762/849 TRiUS participants at baseline. Overall, 92.4% (704/762) demonstrated some level of depressive symptoms, with 17.3% (132/762) having moderately severe (score 15–19) to severe (score 20–27) symptoms. Subcohorts with significantly (p ≤ 0.03) more moderately severe to severe symptoms were: <60 years old, TT levels <250 ng/dl (<8.68 nmol/l), HIV/AIDS-positive, or used antidepressants or opioids. TT levels and PHQ-9 scores improved significantly (p < 0.01) by 3 months of TRT. At 12 months PHQ-9 scores showed a clinically meaningful mean improvement of 5.62 points, patients with moderately severe to severe symptoms decreased from 17.3% to 2.1% (5/233), and subcohorts, including those defined by age (<60 years) and antidepressant use, had improved PHQ-9 scores ≥5. Conclusion: TRT may reduce depression symptoms in hypogonadal men, including middle-aged men and those using antidepressants.

Changes in Prostate Specific Antigen in Hypogonadal Men After 12 Months of Testosterone Replacement Therapy: Support for the Prostate Saturation Theory

PURPOSE We measured prostate specific antigen after 12 months of testosterone replacement therapy in hypogonadal men. MATERIALS AND METHODS Data were collected from the TRiUS (Testim® Registry in the United States), an observational registry of hypogonadal men on testosterone replacement therapy (849). Participants were Testim naïve, had no prostate cancer and received 5 to 10 gm Testim 1% (testosterone gel) daily. RESULTS A total of 451 patients with prostate specific antigen and total testosterone values were divided into group A (197 with total testosterone less than 250 ng/dl) and group B (254 with total testosterone 250 ng/dl or greater). The groups differed significantly in free testosterone and sex hormone-binding globulin, but not in age or prostate specific antigen. In group A but not group B prostate specific antigen correlated significantly with total testosterone (r=0.20, p=0.005), free testosterone (r=0.22, p=0.03) and sex hormone-binding globulin (r=0.59, p=0.002) at baseline. After 12 months of testosterone replacement therapy, increase in total testosterone (mean±SD) was statistically significant in group A (+326±295 ng/dl, p<0.001; final total testosterone 516±28 ng/dl) and group B (+154±217 ng/dl, p<0.001; final total testosterone 513±20 ng/dl). After 12 months of testosterone replacement therapy, increase in prostate specific antigen was statistically significant in group A (+0.19±0.61 ng/ml, p=0.02; final prostate specific antigen 1.26±0.96 ng/ml) but not in group B (+0.28±1.18 ng/ml, p=0.06; final prostate specific antigen 1.55±1.72 ng/ml). The average percent prostate specific antigen increase from baseline was higher in group A (21.9%) than in group B (14.1%). Overall the greatest prostate specific antigen was observed after 1 month of treatment and decreased thereafter. CONCLUSIONS Patients with baseline total testosterone less than 250 ng/dl were more likely to have an increased prostate specific antigen after testosterone replacement therapy than those with baseline total testosterone 250 ng/dl or greater, supporting the prostate saturation hypothesis. Clinicians should be aware that severely hypogonadal patients may experience increased prostate specific antigen after testosterone replacement therapy.

Is there an increased risk of hip fracture in Parkinson's disease? A nationwide inpatient sample.

The aim of this study was to determine whether people with Parkinsons disease (PD) are overrepresented in a national cohort of hip‐fracture admissions.

Testosterone replacement therapy among elderly males: the Testim Registry in the US (TRiUS)

Background: Testosterone levels naturally decline with age in men, often resulting in testosterone deficiency (hypogonadism). However, few studies have examined hypogonadal characteristics and treatment in older (≥65 years) men. Objective: To compare data at baseline and after 12 months of testosterone replacement therapy (TRT) in hypogonadal men ≥65 vs <65 years old. Data for participants 65–74 vs ≥75 years old were also compared. Methods: Data were from TRiUS (Testim Registry in the United States), which enrolled 849 hypogonadal men treated with Testim® 1% (50–100 mg testosterone gel/day) for the first time. Anthropometric, laboratory, and clinical measures were taken at baseline and 12 months, including primary outcomes of total testosterone (TT), free testosterone (FT), and prostate-specific antigen (PSA) levels. Comparisons of parameters were made using Fisher’s exact test or analysis of variance. Nonparametric Spearman’s ρ and first-order partial correlation coefficients adjusted for the effect of age were used to examine bivariate correlations among parameters. Results: Of the registry participants at baseline with available age information, 16% (133/845) were ≥65 years old. They were similar to men <65 years old in the duration of hypogonad-ism prior to enrollment (∼1 year), TT and FT levels at baseline, TT and FT levels at 12-month follow-up, and in reported compliance with treatment. Older patients were more likely to receive lower doses of TRT. PSA levels did not statistically differ between groups after 12 months of TRT (2.18 ± 2.18 ng/mL for ≥65 vs 1.14 ± 0.84 ng/mL for <65 years old, P = 0.1). Baseline values for the >75-year-old subcohort were not significantly different from subcohorts aged 65–74 years and <65 years. Conclusion: Hypogonadal men ≥65 years old showed significant benefit from TRT over 12 months, similar to that found for hypogonadal men <65 years old. TRT was well tolerated in older patients, successfully increased testosterone level regardless of age, and did not significantly increase PSA levels in older men.

Testosterone Replacement Therapy Outcomes Among Opioid Users: The Testim Registry in the United States (TRiUS)

OBJECTIVE Among patients with hypogonadism-associated comorbidities, opioid users have the highest incidence of hypogonadism. Data from the Testim Registry in the United States were analyzed to determine the efficacy of testosterone replacement therapy in opioid users vs nonusers. DESIGN Prospective, 12-month observational cohort registry. SUBJECTS Hypogonadal men (N = 849) prescribed Testim (but not necessarily testosterone replacement) for the first time. INTERVENTIONS Testim 1% testosterone gel (5-10 g/day). OUTCOME MEASURES Total and free testosterone, sex hormone-binding globulin, prostate-specific antigen, sexual function, mood/depression, and anthropometric data were assessed. Changes from baseline were analyzed using repeated measures mixed-effects analysis of variance; multiple linear regressions of changes in testosterone levels with sexual function, mood, and opioid use were computed. RESULTS 90/849 patients (10.6%) reported opioid use at baseline; 75/90 (83%) used opioids for ≥ 30 days prior to baseline. Baseline total testosterone and prostate-specific antigen were not statistically different between opioid users and nonusers; there was a trend for higher sex hormone-binding globulin (P = 0.08) and lower free testosterone (P = 0.05) in opioid users. After 1 month, both opioid users and nonusers had significant (P < 0.001) increases in total and free testosterone, which continued through 12 months. Sexual function and mood improved significantly in both opioid users and nonusers over 12 months, and significantly correlated with change in total testosterone. CONCLUSIONS Testosterone replacement therapy increased serum testosterone in hypogonadal opioid users and nonusers alike. The data suggest that with testosterone replacement, hypogonadal opioid users might be expected to have similar improvements in sexual function and mood as opioid nonusers.

Baseline data from the TRiUS registry: symptoms and comorbidities of testosterone deficiency.

Abstract Background: Testosterone deficiency (TD) is prevalent among men seeking medical attention and may be associated with other comorbidities. Objective: The Testim® Registry in the United States (TRiUS), a large, multicenter, prospective, 12-month observational cohort registry, was established to quantify symptoms and comorbidities of hypogonadal men in real-world clinical settings and to evaluate the effect of testosterone replacement therapy (TRT). Methods: Eligible TRiUS participants were hypogonadal men prescribed Testim® (1% testosterone gel) for the first time. Evaluated baseline parameters included: total testosterone (TT), free testosterone (FT), sex hormone-binding globulin (SHBG), prostate-specific antigen (PSA), anthropometrics (height, weight, waist, hip, and body mass index [BMI]), lipids, blood glucose, sexual dysfunction, mood/depression, and cardiovascular and metabolic risk factors. Parameters were correlated to TT and age using bivariate correlation and to the combination of TT and age using multiple linear regression. Results: TRiUS had 849 registrants (baseline TT: 286.5 ± 151.8 ng/dL; FT: 40.8 ± 62.1 pg/mL; SHBG: 28.2 ± 15.0 nmol/L; PSA: 1.12 ± 1.11 ng/mL). Eighty-six percent were overweight/obese, with a BMI ≥ 25 kg/m2, and 57% were aged 40 to 59 years, with a mean (± standard deviation) age of 52.1 ± 12.3 years. Total testosterone levels were significantly lower in men aged ≥ 65 years. The most common comorbid conditions and cardiovascular risk factors included: smoking, metabolic syndrome, hypertension, dyslipidemia, and coronary artery disease. Weak but statistically significant inverse correlations were noted between TT and sexual dysfunction, fasting glucose, systolic blood pressure, BMI, and Framingham risk scores. Patients with obesity or metabolic syndrome had significantly lower TT levels, particularly among younger and middle-aged patients. Conclusions: Untreated hypogonadal middle-aged men exhibited a high prevalence of cardiometabolic risk factors that were correlated to TT levels. This suggests that TD is associated with adverse medical conditions that pose serious health risks, especially in a younger age demographic than previously thought. Clinicians may want to consider TT testing in unhealthy, middle-aged patients with symptoms of TD.

12-Month Observation of Testosterone Replacement Effectiveness in a General Population of Men

Abstract Background: Testosterone decline becomes more prevalent as men age and symptomatic testosterone deficiency is associated with potentially serious comorbidities. Despite limitations, registries can provide an opportunity to accumulate data regarding disease management in a typical patient population, including diagnosis, treatment, and outcomes. Materials and Methods: The Testim Registry in the United States (TRiUS) was a prospective, 12-month, observational cohort registry of men prescribed Testim® (1% testosterone gel; Auxilium Pharmaceuticals, Inc.) for the first time; patients previously on other forms of testosterone replacement therapy (TRT) were eligible to participate in the study as well. The registry recorded total testosterone (TT) and free testosterone (FT) levels, prostate-specific antigen (PSA), sexual function, mood/depression, and cardiometabolic and anthropometric criteria before and after TRT. Changes over time were analyzed by analysis of variance, and linear regression and Pearson product-moment correlation coefficients were used to examine relationships between variables. Results: At baseline, 849 patients from 72 sites were enrolled, with 743 of 849 started on 5 g gel/day (50 mg testosterone/day) and 106 of 849 started on 10 g gel/day (100 mg testosterone/day). Mean TT and FT levels increased significantly after 3 months of TRT (TT level, 16.8 ± 9.87 nmol/L [485 ± 284 ng/dL], P < 0.001; FT level, 286.3 ± 224.9 pmol/L [82.5 ± 64.8 pg/mL], P < 0.001) and were maintained at eugonadal levels. Mean PSA levels increased significantly (P = 0.004) from 1.12 ± 1.11 μg/L (1.12+1.11 ng/mL) at baseline to 1.26 ± 1.22 μg/L (1.26 ± 1.22 ng/mL) after 12 months of TRT, although changes were well within guidelines (< 1.4 μg/L/year increase). Significant improvements were seen in sexual function and mood/depression at 3 months and in metabolic parameters at 12 months. Conclusion: Testosterone deficiency symptoms improved with TRT use in men; sexual function and mood/depression improvements were seen before metabolic improvements. Prostate-specific antigen levels increased, although increases were within guideline-determined safety limits.