madman
Super Moderator
Abstract
Introduction & Objective
Testosterone (T) replacement therapy (TRT) is the mainstay treatment for male hypogonadism. The most commonly reported adverse event among men using TRT is polycythemia. What is unknown is whether the short-acting vs. long-acting testosterone preparations have different effects on hematocrit. We hypothesized that short-acting testosterone therapy will be physiologic and have a lesser effect on hematocrit compared to long-acting TRT. We evaluated data from two simultaneous ongoing open-label, randomized, two-arm clinical trials to evaluate the impact of TRT on Hematocrit and compared prevalence rates of polycythemia among subcutaneous T pellets (long-acting) and Intranasal testosterone (Natesto) or Intramuscular Testosterone cypionate (TC) (short-acting).
Subject and Methods
Hypogonadal men (2 AM serum T < 300 ng/dL assayed by LC-MS/MS) aged 18-65 years were randomized into open-label randomized clinical trials. Eligible subjects received: Trial 1: 800mg subcutaneous Testopel T pellets; Trial 2: 11mg TID Intranasal testosterone (Natesto) or 200mg x 2 weeks TC for 2 months. Serum T, Hematocrit (HCT), and prevalence of polycythemia (as defined as HCT >50%) were collected at baseline and after 2 months of therapy. Data are presented as a post-hoc analysis of the two randomized clinical trials and reported as a median and interquartile range [25th-75th], paired-sample analysis (baseline versus follow-up) was performed with the Wilcoxon rank test to determine change during time within the different TRT modalities, with p<0.05 considered significant.
Results
Median change for serum T between baseline and 2mo follow-up to subcutaneous T pellets was 542 [454-757] ng/dL, Intranasal Testosterone 706 [517-1010] ng/dL, and TC 525 [280-712]ng/dL. T pellets showed a statistically significant increase in HCT from 44.6 [42.0-46.6] to 46.7 [42.6-48.9] (p<0.001), with a prevalence of 7/47 (14%) men developing polycythemia. A safety trigger for HCT greater than 54% occurred in 2/47 (4%). The treatment effect was independent of baseline serum testosterone. TRT with Natesto decreased HCT, from 43.4 [41.6-46.1] to 43.4 [40.6-46.5], however not statistically significant (p=0.262). TC statistically increased HCT from 41.6 [40.3-43.1] to 43.8 [43.5-47.4] (p=0.018), with 0% of men developing polycythemia in both groups.
Conclusions
Long-acting TRT appears to increase hematocrit compared to short-acting testosterone therapies. Treatment of hypogonadal men with Intranasal T Natesto and testosterone cypionate successfully achieved target serum T level and maintained HCT levels. The longer-term durability and safety effects of the intervention remain to be further investigated.
Introduction & Objective
Testosterone (T) replacement therapy (TRT) is the mainstay treatment for male hypogonadism. The most commonly reported adverse event among men using TRT is polycythemia. What is unknown is whether the short-acting vs. long-acting testosterone preparations have different effects on hematocrit. We hypothesized that short-acting testosterone therapy will be physiologic and have a lesser effect on hematocrit compared to long-acting TRT. We evaluated data from two simultaneous ongoing open-label, randomized, two-arm clinical trials to evaluate the impact of TRT on Hematocrit and compared prevalence rates of polycythemia among subcutaneous T pellets (long-acting) and Intranasal testosterone (Natesto) or Intramuscular Testosterone cypionate (TC) (short-acting).
Subject and Methods
Hypogonadal men (2 AM serum T < 300 ng/dL assayed by LC-MS/MS) aged 18-65 years were randomized into open-label randomized clinical trials. Eligible subjects received: Trial 1: 800mg subcutaneous Testopel T pellets; Trial 2: 11mg TID Intranasal testosterone (Natesto) or 200mg x 2 weeks TC for 2 months. Serum T, Hematocrit (HCT), and prevalence of polycythemia (as defined as HCT >50%) were collected at baseline and after 2 months of therapy. Data are presented as a post-hoc analysis of the two randomized clinical trials and reported as a median and interquartile range [25th-75th], paired-sample analysis (baseline versus follow-up) was performed with the Wilcoxon rank test to determine change during time within the different TRT modalities, with p<0.05 considered significant.
Results
Median change for serum T between baseline and 2mo follow-up to subcutaneous T pellets was 542 [454-757] ng/dL, Intranasal Testosterone 706 [517-1010] ng/dL, and TC 525 [280-712]ng/dL. T pellets showed a statistically significant increase in HCT from 44.6 [42.0-46.6] to 46.7 [42.6-48.9] (p<0.001), with a prevalence of 7/47 (14%) men developing polycythemia. A safety trigger for HCT greater than 54% occurred in 2/47 (4%). The treatment effect was independent of baseline serum testosterone. TRT with Natesto decreased HCT, from 43.4 [41.6-46.1] to 43.4 [40.6-46.5], however not statistically significant (p=0.262). TC statistically increased HCT from 41.6 [40.3-43.1] to 43.8 [43.5-47.4] (p=0.018), with 0% of men developing polycythemia in both groups.
Conclusions
Long-acting TRT appears to increase hematocrit compared to short-acting testosterone therapies. Treatment of hypogonadal men with Intranasal T Natesto and testosterone cypionate successfully achieved target serum T level and maintained HCT levels. The longer-term durability and safety effects of the intervention remain to be further investigated.
