Respected Study Concludes Testosterone Does Not Increase Cardiovascular Risks

[Nelson Vergel]

We have been waiting for this study for a while. Done with Androgel. Dr Bhasin el al.

https://www.nejm.org/doi/full/10.1056/NEJMoa2215025

Here are the main learning points of this study:

1. The trial was conducted to ascertain if testosterone-replacement therapy in middle-aged and older men with hypogonadism increases the risk of cardiovascular events.
2. The participants were men with established cardiovascular disease or multiple cardiac risk factors.
3. Over a mean duration of 22 months, testosterone-replacement therapy was found to be noninferior to placebo with regards to the incidence of major adverse cardiac events. The hazard ratio was 0.96 (95% CI, 0.78 to 1.17), indicating noninferiority.
4. The study's findings challenge previous uncertainties around testosterone therapy's cardiovascular safety, some of which stemmed from inconsistent results in previous trials and retrospective observational studies.
5. While the incidence of pulmonary embolism was higher in the testosterone group, the study found that adverse events such as nonfatal arrhythmias, atrial fibrillation, and acute kidney injury were unexpected.
6. The study advised caution when using testosterone therapy for men who have had previous thromboembolic events.
7. It was observed that adherence and retention rates were lower in this trial compared to most cardiovascular outcome studies, which might have influenced the results. However, the consistency between the intention-to-treat and on-treatment sensitivity analyses suggests that nonadherence likely didn't significantly bias the noninferiority conclusions.
8. The trial confirmed known benefits of testosterone therapy in older men, such as improved sexual function, increased bone mineral density, correction of unexplained anemia, and reduced depressive symptoms.
9. While the study provides some assurance regarding the cardiovascular safety of testosterone therapy, it encourages careful consideration of the potential benefits and risks of this treatment in middle-aged and older men with hypogonadism.
10. Men with hypogonadism who already had heart disease or who had multiple risk factors for heart disease were followed for an average of 22 months. During that time, there were no major bad cardiac events that were worse with testosterone replacement therapy than with a placebo. The overall incidence of adverse events was low.

We conducted this randomized, placebo-controlled trial to address uncertainty as to whether testosterone-replacement therapy in middle-aged and older men with hypogonadism increases the risk of cardiovascular events. We included men with established cardiovascular disease or multiple cardiac risk factors who would be most vulnerable to an increased risk of adverse cardiovascular outcomes. Among 5198 patients who received testosterone or placebo for a mean duration of 22 months, testosterone-replacement therapy was noninferior to placebo with respect to the incidence of major adverse cardiac events. The hazard ratio for a primary end-point event was 0.96 (95% CI, 0.78 to 1.17), a noninferiority finding that was confirmed in sensitivity analyses with adjustment for the influence of interruptions or discontinuations of testosterone or placebo.

The FDA initiated a review of the cardiovascular safety of testosterone products in 2010 after a small placebo-controlled trial was prematurely discontinued because of an increased incidence of cardiovascular events among patients who received testosterone therapy.14 However, subsequent meta-analyses showed variable results and most, including a recent patient-level meta-analysis,15 did not confirm these findings. Cardiac events in those trials were not uniformly adjudicated, definitions were broad and inconsistent, and the trials were not adequately powered for cardiovascular outcomes. Retrospective observational studies, which were limited by potential confounding and selection bias, also showed conflicting findings,1-5 although one analysis from a large health care database suggested that an age of 65 years or older or preexisting cardiovascular disease might be important modifiers of increased risk with testosterone-replacement therapy.2 Nearly half the patients enrolled in the current trial were 65 years of age or older, and more than half had preexisting cardiovascular disease. The 372 adjudicated primary end-point events that occurred in this trial were greater in number than those in all previous randomized trials of testosterone combined.

The incidence of pulmonary embolism was higher with testosterone than with placebo. Although most reported cases of thrombosis associated with testosterone therapy have been in men with underlying thrombophilia,16 a meta-analysis of randomized trials did not show an association between venous thromboembolic events and testosterone use in wider populations.15 Our findings support current guidelines that testosterone should be used with caution in men who have had previous thromboembolic events.17There were more cases of nonfatal arrhythmias warranting intervention, atrial fibrillation, and acute kidney injury among patients who received testosterone than among those who received placebo; these adverse events were not expected. A cohort study suggested that normalization of low testosterone levels by testosterone-replacement therapy was associated with a decrease in the incidence of atrial fibrillation.18 In the current trial, the small increase in blood pressure observed in the testosterone group was similar to that reported previously with other testosterone formulations.19

Our trial design specified that noninferiority testing for cardiovascular safety be performed in the population of all patients who had undergone randomization and who had received at least one dose of testosterone or placebo. This modified intention-to-treat analysis preserves the integrity of randomization but may attenuate differences between trial groups and bias toward noninferiority when patients are not adherent to or discontinue their assigned testosterone or placebo. We therefore planned three on-treatment sensitivity analyses and specified that the trial would not conclude until accrual of at least 256 primary end-point events that met the criteria for the principal sensitivity analysis. By considering only those end-point events that occurred while patients were receiving testosterone or placebo or within a time frame of physiologic effect after discontinuation of testosterone or placebo, on-treatment analyses can strengthen safety signals by providing a more specific accounting of outcomes related to testosterone therapy. These sensitivity analyses provided support for the noninferiority conclusions.

The incidence of adherence and of retention was lower in this trial than in most cardiovascular outcome studies. Similar levels of adherence and retention have been reported in other trials of testosterone20,21 as well as other therapies for symptomatic conditions such as menopause,22,23obesity,24,25 and chronic pain.26 These findings reflect the challenge of retaining patients who have persistent symptoms and choose to switch medications or discontinue trial participation. The consistency of the results from the intention-to-treat and on-treatment sensitivity analyses suggests that nonadherence was unlikely to have had an impact on the noninferiority conclusions. The effect of nonretention, however, is more difficult to quantify, and the possibility of bias due to informative censoring cannot be ruled out despite a similar incidence of nonretention in the two trial groups. It is somewhat reassuring that of the patients who discontinued trial participation, nearly half did so after end-of-trial visits began, and outcome data were available for more than 80% of the potential person-time follow-up.

Controlled trials have shown that the use of testosterone in older men improves sexual function,27-29 increases volumetric and areal bone mineral density,30 corrects unexplained anemia,31,32 and moderately reduces depressive symptoms.33 However, because testosterone deficiency is not a life-threatening condition, uncertainty about cardiovascular outcomes has weighed on treatment decisions by clinicians and patients.17 Our findings regarding the cardiovascular safety of testosterone may facilitate a more informed consideration of the potential benefits and risks of testosterone therapy among middle-aged and older men with hypogonadism.

Among men with hypogonadism and established cardiovascular disease or multiple risk factors for incident cardiac events, testosterone-replacement therapy was noninferior to placebo with respect to the occurrence of major adverse cardiac events during a mean 22-month follow-up, and the overall incidence of adverse events was low.

 

[Nelson Vergel]

Remember that T-gels do not increase hematocrit as much as injections.

Dr. Ramasamy presented a very interesting paper on the subject.

High Hematocrit: How Testosterone Replacement Therapy Can Affect Your Health

Learn how testosterone replacement therapy can increase your hematocrit levels and what you can do to lower high hematocrit safely and effectively.

www.discountedlabs.com

 

[Deleted member 43589]

Thanks for posting this Nelson. Hopefully, this puts the final nail in the testosterone causing cardiac problems once and for all.

 

[madman]

We have been waiting for this study for a while. Done with Androgel. Dr Bhasin el al.


View attachment 33144

https://www.nejm.org/doi/full/10.1056/NEJMoa2215025

Here are the main learning points of this study:

1. The trial was conducted to ascertain if testosterone-replacement therapy in middle-aged and older men with hypogonadism increases the risk of cardiovascular events.
2. The participants were men with established cardiovascular disease or multiple cardiac risk factors.
3. Over a mean duration of 22 months, testosterone-replacement therapy was found to be noninferior to placebo with regards to the incidence of major adverse cardiac events. The hazard ratio was 0.96 (95% CI, 0.78 to 1.17), indicating noninferiority.
4. The study's findings challenge previous uncertainties around testosterone therapy's cardiovascular safety, some of which stemmed from inconsistent results in previous trials and retrospective observational studies.
5. While the incidence of pulmonary embolism was higher in the testosterone group, the study found that adverse events such as nonfatal arrhythmias, atrial fibrillation, and acute kidney injury were unexpected.
6. The study advised caution when using testosterone therapy for men who have had previous thromboembolic events.
7. It was observed that adherence and retention rates were lower in this trial compared to most cardiovascular outcome studies, which might have influenced the results. However, the consistency between the intention-to-treat and on-treatment sensitivity analyses suggests that nonadherence likely didn't significantly bias the noninferiority conclusions.
8. The trial confirmed known benefits of testosterone therapy in older men, such as improved sexual function, increased bone mineral density, correction of unexplained anemia, and reduced depressive symptoms.
9. While the study provides some assurance regarding the cardiovascular safety of testosterone therapy, it encourages careful consideration of the potential benefits and risks of this treatment in middle-aged and older men with hypogonadism.
10. Men with hypogonadism who already had heart disease or who had multiple risk factors for heart disease were followed for an average of 22 months. During that time, there were no major bad cardiac events that were worse with testosterone replacement therapy than with a placebo. The overall incidence of adverse events was low.

We conducted this randomized, placebo-controlled trial to address uncertainty as to whether testosterone-replacement therapy in middle-aged and older men with hypogonadism increases the risk of cardiovascular events. We included men with established cardiovascular disease or multiple cardiac risk factors who would be most vulnerable to an increased risk of adverse cardiovascular outcomes. Among 5198 patients who received testosterone or placebo for a mean duration of 22 months, testosterone-replacement therapy was noninferior to placebo with respect to the incidence of major adverse cardiac events. The hazard ratio for a primary end-point event was 0.96 (95% CI, 0.78 to 1.17), a noninferiority finding that was confirmed in sensitivity analyses with adjustment for the influence of interruptions or discontinuations of testosterone or placebo.

The FDA initiated a review of the cardiovascular safety of testosterone products in 2010 after a small placebo-controlled trial was prematurely discontinued because of an increased incidence of cardiovascular events among patients who received testosterone therapy.14 However, subsequent meta-analyses showed variable results and most, including a recent patient-level meta-analysis,15 did not confirm these findings. Cardiac events in those trials were not uniformly adjudicated, definitions were broad and inconsistent, and the trials were not adequately powered for cardiovascular outcomes. Retrospective observational studies, which were limited by potential confounding and selection bias, also showed conflicting findings,1-5 although one analysis from a large health care database suggested that an age of 65 years or older or preexisting cardiovascular disease might be important modifiers of increased risk with testosterone-replacement therapy.2 Nearly half the patients enrolled in the current trial were 65 years of age or older, and more than half had preexisting cardiovascular disease. The 372 adjudicated primary end-point events that occurred in this trial were greater in number than those in all previous randomized trials of testosterone combined.

The incidence of pulmonary embolism was higher with testosterone than with placebo. Although most reported cases of thrombosis associated with testosterone therapy have been in men with underlying thrombophilia,16 a meta-analysis of randomized trials did not show an association between venous thromboembolic events and testosterone use in wider populations.15 Our findings support current guidelines that testosterone should be used with caution in men who have had previous thromboembolic events.17There were more cases of nonfatal arrhythmias warranting intervention, atrial fibrillation, and acute kidney injury among patients who received testosterone than among those who received placebo; these adverse events were not expected. A cohort study suggested that normalization of low testosterone levels by testosterone-replacement therapy was associated with a decrease in the incidence of atrial fibrillation.18 In the current trial, the small increase in blood pressure observed in the testosterone group was similar to that reported previously with other testosterone formulations.19

Our trial design specified that noninferiority testing for cardiovascular safety be performed in the population of all patients who had undergone randomization and who had received at least one dose of testosterone or placebo. This modified intention-to-treat analysis preserves the integrity of randomization but may attenuate differences between trial groups and bias toward noninferiority when patients are not adherent to or discontinue their assigned testosterone or placebo. We therefore planned three on-treatment sensitivity analyses and specified that the trial would not conclude until accrual of at least 256 primary end-point events that met the criteria for the principal sensitivity analysis. By considering only those end-point events that occurred while patients were receiving testosterone or placebo or within a time frame of physiologic effect after discontinuation of testosterone or placebo, on-treatment analyses can strengthen safety signals by providing a more specific accounting of outcomes related to testosterone therapy. These sensitivity analyses provided support for the noninferiority conclusions.

The incidence of adherence and of retention was lower in this trial than in most cardiovascular outcome studies. Similar levels of adherence and retention have been reported in other trials of testosterone20,21 as well as other therapies for symptomatic conditions such as menopause,22,23obesity,24,25 and chronic pain.26 These findings reflect the challenge of retaining patients who have persistent symptoms and choose to switch medications or discontinue trial participation. The consistency of the results from the intention-to-treat and on-treatment sensitivity analyses suggests that nonadherence was unlikely to have had an impact on the noninferiority conclusions. The effect of nonretention, however, is more difficult to quantify, and the possibility of bias due to informative censoring cannot be ruled out despite a similar incidence of nonretention in the two trial groups. It is somewhat reassuring that of the patients who discontinued trial participation, nearly half did so after end-of-trial visits began, and outcome data were available for more than 80% of the potential person-time follow-up.

Controlled trials have shown that the use of testosterone in older men improves sexual function,27-29 increases volumetric and areal bone mineral density,30 corrects unexplained anemia,31,32 and moderately reduces depressive symptoms.33 However, because testosterone deficiency is not a life-threatening condition, uncertainty about cardiovascular outcomes has weighed on treatment decisions by clinicians and patients.17 Our findings regarding the cardiovascular safety of testosterone may facilitate a more informed consideration of the potential benefits and risks of testosterone therapy among middle-aged and older men with hypogonadism.

Among men with hypogonadism and established cardiovascular disease or multiple risk factors for incident cardiac events, testosterone-replacement therapy was noninferior to placebo with respect to the occurrence of major adverse cardiac events during a mean 22-month follow-up, and the overall incidence of adverse events was low.

post #13/14

TRT and Cardiovascular Disease

Testosterone replacement therapy and cardiovascular disease (2022) Jeremy M. Auerbach and Mohit Khera The use of testosterone therapy has a complex history of apprehension and questions regarding its safety. Despite an eventual consensus that testosterone therapy was safe and effective...

www.excelmale.com

 

[Fernando Almaguer]

Remember that T-gels do not increase hematocrit as much as injections.

Dr. Ramasamy presented a very interesting paper on the subject.

High Hematocrit: How Testosterone Replacement Therapy Can Affect Your Health

Learn how testosterone replacement therapy can increase your hematocrit levels and what you can do to lower high hematocrit safely and effectively.

www.discountedlabs.com

Thanks for sharing the information, Nelson. Does anyone know why high hematocrit would cause pale skin and also why physical activity lowers it?

 

[Nelson Vergel]

I have never heard about the pale skin issue. Some guys complain of reddish skin.

 

[Fernando Almaguer]

I have never heard about the pale skin issue. Some guys complain of reddish skin.

The study states this. Maybe it is a typo.

What are symptoms of high hematocrit?​

High hematocrit is a condition where the percentage of red blood cells in the bloodstream is higher than normal. Symptoms can include fatigue, shortness of breath, dizziness, headaches, and pale skin.

 

[SteveCleves]

“Patients were randomly assigned to receive daily transdermal 1.62% testosterone gel (dose adjusted to maintain testosterone levels between 350 and 750 ng per deciliter) or placebo gel.”

Reddit r/testosterone tomorrow:
Bro. You saw the study! My TRT is 200mg a week of cyp, 25mg a day of anavar and 100mg a week of deca for my joints. I spoke to the hooters waitress that moonlights as a patient rep at my Tampa TRT clinic. She said this study means my TRT is safe!!!!

Always good to have a study like this and hopefully this means the black box warning will be removed but let’s not kid ourselves, this is going to be used as “proof” that all manners of TRT are safe and I would be very hesitant to extrapolate these results to anything beyond that treatment modality.

 

[Keepfit1]

The study states this. Maybe it is a typo.

What are symptoms of high hematocrit?​

High hematocrit is a condition where the percentage of red blood cells in the bloodstream is higher than normal. Symptoms can include fatigue, shortness of breath, dizziness, headaches, and pale skin.

should read red face, defo not pale skin

 

[Keepfit1]

We have been waiting for this study for a while. Done with Androgel. Dr Bhasin el al.


View attachment 33144

https://www.nejm.org/doi/full/10.1056/NEJMoa2215025

Here are the main learning points of this study:

1. The trial was conducted to ascertain if testosterone-replacement therapy in middle-aged and older men with hypogonadism increases the risk of cardiovascular events.
2. The participants were men with established cardiovascular disease or multiple cardiac risk factors.
3. Over a mean duration of 22 months, testosterone-replacement therapy was found to be noninferior to placebo with regards to the incidence of major adverse cardiac events. The hazard ratio was 0.96 (95% CI, 0.78 to 1.17), indicating noninferiority.
4. The study's findings challenge previous uncertainties around testosterone therapy's cardiovascular safety, some of which stemmed from inconsistent results in previous trials and retrospective observational studies.
5. While the incidence of pulmonary embolism was higher in the testosterone group, the study found that adverse events such as nonfatal arrhythmias, atrial fibrillation, and acute kidney injury were unexpected.
6. The study advised caution when using testosterone therapy for men who have had previous thromboembolic events.
7. It was observed that adherence and retention rates were lower in this trial compared to most cardiovascular outcome studies, which might have influenced the results. However, the consistency between the intention-to-treat and on-treatment sensitivity analyses suggests that nonadherence likely didn't significantly bias the noninferiority conclusions.
8. The trial confirmed known benefits of testosterone therapy in older men, such as improved sexual function, increased bone mineral density, correction of unexplained anemia, and reduced depressive symptoms.
9. While the study provides some assurance regarding the cardiovascular safety of testosterone therapy, it encourages careful consideration of the potential benefits and risks of this treatment in middle-aged and older men with hypogonadism.
10. Men with hypogonadism who already had heart disease or who had multiple risk factors for heart disease were followed for an average of 22 months. During that time, there were no major bad cardiac events that were worse with testosterone replacement therapy than with a placebo. The overall incidence of adverse events was low.

We conducted this randomized, placebo-controlled trial to address uncertainty as to whether testosterone-replacement therapy in middle-aged and older men with hypogonadism increases the risk of cardiovascular events. We included men with established cardiovascular disease or multiple cardiac risk factors who would be most vulnerable to an increased risk of adverse cardiovascular outcomes. Among 5198 patients who received testosterone or placebo for a mean duration of 22 months, testosterone-replacement therapy was noninferior to placebo with respect to the incidence of major adverse cardiac events. The hazard ratio for a primary end-point event was 0.96 (95% CI, 0.78 to 1.17), a noninferiority finding that was confirmed in sensitivity analyses with adjustment for the influence of interruptions or discontinuations of testosterone or placebo.

The FDA initiated a review of the cardiovascular safety of testosterone products in 2010 after a small placebo-controlled trial was prematurely discontinued because of an increased incidence of cardiovascular events among patients who received testosterone therapy.14 However, subsequent meta-analyses showed variable results and most, including a recent patient-level meta-analysis,15 did not confirm these findings. Cardiac events in those trials were not uniformly adjudicated, definitions were broad and inconsistent, and the trials were not adequately powered for cardiovascular outcomes. Retrospective observational studies, which were limited by potential confounding and selection bias, also showed conflicting findings,1-5 although one analysis from a large health care database suggested that an age of 65 years or older or preexisting cardiovascular disease might be important modifiers of increased risk with testosterone-replacement therapy.2 Nearly half the patients enrolled in the current trial were 65 years of age or older, and more than half had preexisting cardiovascular disease. The 372 adjudicated primary end-point events that occurred in this trial were greater in number than those in all previous randomized trials of testosterone combined.

The incidence of pulmonary embolism was higher with testosterone than with placebo. Although most reported cases of thrombosis associated with testosterone therapy have been in men with underlying thrombophilia,16 a meta-analysis of randomized trials did not show an association between venous thromboembolic events and testosterone use in wider populations.15 Our findings support current guidelines that testosterone should be used with caution in men who have had previous thromboembolic events.17There were more cases of nonfatal arrhythmias warranting intervention, atrial fibrillation, and acute kidney injury among patients who received testosterone than among those who received placebo; these adverse events were not expected. A cohort study suggested that normalization of low testosterone levels by testosterone-replacement therapy was associated with a decrease in the incidence of atrial fibrillation.18 In the current trial, the small increase in blood pressure observed in the testosterone group was similar to that reported previously with other testosterone formulations.19

Our trial design specified that noninferiority testing for cardiovascular safety be performed in the population of all patients who had undergone randomization and who had received at least one dose of testosterone or placebo. This modified intention-to-treat analysis preserves the integrity of randomization but may attenuate differences between trial groups and bias toward noninferiority when patients are not adherent to or discontinue their assigned testosterone or placebo. We therefore planned three on-treatment sensitivity analyses and specified that the trial would not conclude until accrual of at least 256 primary end-point events that met the criteria for the principal sensitivity analysis. By considering only those end-point events that occurred while patients were receiving testosterone or placebo or within a time frame of physiologic effect after discontinuation of testosterone or placebo, on-treatment analyses can strengthen safety signals by providing a more specific accounting of outcomes related to testosterone therapy. These sensitivity analyses provided support for the noninferiority conclusions.

The incidence of adherence and of retention was lower in this trial than in most cardiovascular outcome studies. Similar levels of adherence and retention have been reported in other trials of testosterone20,21 as well as other therapies for symptomatic conditions such as menopause,22,23obesity,24,25 and chronic pain.26 These findings reflect the challenge of retaining patients who have persistent symptoms and choose to switch medications or discontinue trial participation. The consistency of the results from the intention-to-treat and on-treatment sensitivity analyses suggests that nonadherence was unlikely to have had an impact on the noninferiority conclusions. The effect of nonretention, however, is more difficult to quantify, and the possibility of bias due to informative censoring cannot be ruled out despite a similar incidence of nonretention in the two trial groups. It is somewhat reassuring that of the patients who discontinued trial participation, nearly half did so after end-of-trial visits began, and outcome data were available for more than 80% of the potential person-time follow-up.

Controlled trials have shown that the use of testosterone in older men improves sexual function,27-29 increases volumetric and areal bone mineral density,30 corrects unexplained anemia,31,32 and moderately reduces depressive symptoms.33 However, because testosterone deficiency is not a life-threatening condition, uncertainty about cardiovascular outcomes has weighed on treatment decisions by clinicians and patients.17 Our findings regarding the cardiovascular safety of testosterone may facilitate a more informed consideration of the potential benefits and risks of testosterone therapy among middle-aged and older men with hypogonadism.

Among men with hypogonadism and established cardiovascular disease or multiple risk factors for incident cardiac events, testosterone-replacement therapy was noninferior to placebo with respect to the occurrence of major adverse cardiac events during a mean 22-month follow-up, and the overall incidence of adverse events was low.

on testogel levels of T was 350-750, I wonder if it still doesnt cause cardio issues when dose is higher, with testogel T rises quickly but falls quickly and falls over night whereas on injections many are keeping their T up over 750 maybe 1000 and 24/7?

 

[tareload]

“Patients were randomly assigned to receive daily transdermal 1.62% testosterone gel (dose adjusted to maintain testosterone levels between 350 and 750 ng per deciliter) or placebo gel.”

Bro. You saw the study! My TRT is 200mg a week of cyp, 25mg a day of anavar and 100mg a week of deca for my joints. I spoke to the hooters waitress that moonlights as a patient rep at my Tampa TRT clinic. She said this study means my TRT is safe!!!!

Always good to have a study like this and hopefully this means the black box warning will be removed but let’s not kid ourselves, this is going to be used as “proof” that all manners of TRT are safe and I would be very hesitant to extrapolate these results to anything beyond that treatment modality.

Damn brother. I gotta take you to lunch! Well done.

 

[tareload]

750, I wonder if it still doesnt cause cardio issues when dose is higher,

Excellent. Note well Dear Reader:

TRT and Cardiovascular Disease

Testosterone replacement therapy and cardiovascular disease (2022) Jeremy M. Auerbach and Mohit Khera The use of testosterone therapy has a complex history of apprehension and questions regarding its safety. Despite an eventual consensus that testosterone therapy was safe and effective...

www.excelmale.com

At a mean follow-up of 33 months, a primary cardiovascular safety endpoint (first occurrence of death from CV causes, nonfatal MI, or nonfatal stroke) had occurred in 7.0% of the testosterone group and 7.3% of the placebo group (P < 0.001 for noninferiority). There were no differences in each of this endpoint’s components or when coronary revascularization was added to the composite.

However, compared with the placebo group, testosterone-treated patients had more nonfatal arrhythmias warranting intervention (5.2% vs 3.3%), atrial fibrillation (3.5% vs 2.4%), and acute kidney injury (2.3% vs 1.5%), as well as a higher incidence of pulmonary embolism (0.9% vs. 0.5%).

Lincoff said that, going into the study, he didn’t know if it would uncover any CV safety issues. “I felt this was one of those situations where I had true equipoise,” he said, adding, “It was really an open question in my mind about whether or not there would be risk. There was clearly precedent for risk with other hormonal manipulations, such as hormone replacement for postmenopausal women, but on the other hand this is very different pathophysiology. . . . The key was to design the trial in a way that had the high-risk patients and would maximize the likelihood of seeing a safety signal if there indeed was one.”

For him, there was even a little hope that TRAVERSE would show some benefit, since some research had suggested very low levels of testosterone are linked to increased risk, Lincoff noted. He pointed out, however, that TRAVERSE wasn’t powered to show benefit and didn’t enroll men who had exceedingly low testosterone levels.

TRAVERSE’s large size is enabling researchers to pursue additional substudies looking beyond CV safety at things like “prostate safety and efficacy with regard to anemia, diabetes, sexual function, [and] bone fractures,” said Lincoff.

TOT (as opposed to TRT) opening you up to other potential "fun". Too bad we won't get TRAVERSE II where they run the treatment group between FT levels of 20 to 30 ng/dl vs 30 to 40 ng/dl vs control. That would be a fun study to read but most likely not fun for some of the participants