TTh in Men with Biochemical Recurrence and Metastatic PCa

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Abstract

Introduction: Although prostate cancer (PCa) has long been considered an absolute contraindication for testosterone therapy (TTh), growing literature suggests TTh may be safely offered to men with localized PCa. We here present a single-center series of men treated with TTh for relief of symptoms, despite having more advanced disease, namely biochemical recurrence (BCR) or metastatic PCa (MET).

Methods: We identified men treated with TTh with BCR, MET, or adjuvant androgen deprivation therapy (ADT). Consent included risks of rapid PCa progression and death. Laboratory and clinical results were analyzed.

Results: Twenty-two men received TTh: 7 with BCR, 13 with MET, and 2 with adjuvant ADT. The median age was 70.5 years (range 58–94). Median TTh duration was 12 months (range 2–84) overall, including 20 months for BCR and 9.5 months for MET. Mean serum testosterone (T) increased from 210 to 1111 ng/dL. Median PSA (interquartile range) increased from 3.1 ng/mL (0.2–4.5) to 13.3 ng/mL (3.4–22) in the BCR group, 6.3 ng/mL (1.2–31) to 17.8 ng/mL (6.2–80.1) in the MET group, and <0.1 to 0.3 ng/mL in the ADT group. All patients reported symptom relief, especially improved vigor and well-being. Overall mortality was 13.6% and PCa-specific mortality was 4.5% during the period of TTh and 6 months after discontinuation. Seven of 10 with follow-up imaging within 12 months showed no progression. Five men have died: three during TTh and two succumbed at 2 years or longer after discontinuing TTh. One of the three deaths during TTh was PCa-specific. Three men developed significant bone pain at 7–41 months; two discontinued TTh and one continued, after focal radiation. There were no cases of rapid-onset complications, vertebral collapse, or pathological fracture.

Conclusions: These initial observations indicate TTh was not associated with precipitous progression of PCa in men with BCR and MET, suggesting a possible role for TTh in selected men with advanced PCa whose desire for improved quality of life is paramount.




Introduction

The diagnosis of prostate cancer (PCa) has been considered an absolute contraindication for testosterone (T) therapy (TTh) for decades, based on the belief that TTh ‘‘activates’’ PCa growth, first asserted by Huggins and Hodges.1 In 1981, Fowler and Whitmore reported that 45 of 52 men with metastatic PCa who received testosterone demonstrated an ‘‘unfavorable response’’ within 30 days.2 Since the standard treatment for advanced PCa is to lower serum T with androgen deprivation therapy (ADT), it seemed logical that raising serum T promotes PCa growth. For these reasons it has been widely believed that raising testosterone is likely to cause rapid disease progression, morbidity, and death in men with PCa.

However, a growing literature has challenged this concept. Multiple case series have demonstrated low rates of PCa progression or recurrence in men after radical prostatectomy (RP),3,4 radiation therapy,5 and in men on active surveillance.6,7 Population-based studies have failed to show that the use of TTh is associated with worse PCa outcomes.8 The apparent paradox whereby ADT causes disease regression in PCa yet TTh appears to not cause worse PCa outcomes are resolved by the saturation model,9 describing a growth the curve in which maximal androgenic stimulation of PCa is achieved at low serum T concentrations, with little to no additional stimulation occurring at higher serum T concentrations. There is extremely limited evidence regarding saturation in advanced PCa, consisting of an absence of prostate-specific antigen (PSA) progression with TTh in a case report,10 and an inverted U-curve in PCa cell lines in vitro exposed to progressively increasing androgen concentrations, with maximal growth achieved at near-physiological concentrations followed by growth inhibition at higher concentrations.11 However, positive results from the use of bipolar androgen therapy (BAT) in men with castrate-resistant PCa,12 and a modified BAT protocol (mBAT)13 indicate that elevating serum testosterone is not necessarily harmful.

Whereas there has been growing evidence for the benefits of TTh in the general population of men with testosterone deficiency,14 and moderate experience in men with PCa after definitive local therapy or with the low-risk disease on active surveillance, there is scant published experience with the use of TTh in men with nonlocalized PCa in clinical practice. We present in this study our initial observations of TTh in a set of men with advanced PCa treated with TTh. These men all specifically sought TTh, for a number of reasons, including prior experience with TTh, adverse experience with ADT, or belief that a robust serum T concentration would be beneficial for their health despite known concerns that TTh would hasten PCa growth.




*Discussion To the best of our knowledge, this is the first reported clinical series in the PSA era of outcomes with TTh specifically in men with BCR or MET in a clinical setting, and not part of a formal trial




*There are several important limitations to this study, including its retrospective nature, multiple forms of TTh treatment, and small sample size. In addition, PCa is a heterogeneous disease, and this report includes those with Gleason scores ranging from 6 to 9, which may cloud the interpretation of results. Nonetheless, these preliminary results indicate that TTh does not appear to cause precipitous PCa progression in men with BCR and MET. There may be a role for TTh in selected men with BCR, MET, or high-risk diseases willing to accept the theoretical risk of hastened disease progression in return for enhanced quality of life.




Conclusion

TTh in men with BCR, MET, and high-risk PCa was associated with symptomatic benefits and low rates of complications, although the interpretation of these results must be tempered by a small sample size and a heterogeneous population. Well-designed prospective studies are needed to provide better evidence for the potential use of TTh in similarly affected individuals. In the meantime, these results may provide clinicians with a framework to counsel patients who prioritize quality of life over longevity.

 

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Table 1. Baseline Characteristics by Group

 

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Table 2. Case Details

 

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Table 3. Baseline and Follow-Up Variables While on Testosterone Therapy Between Metastatic and Biochemical Recurrence Groups

 

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FIG. 1. Median changes in prostate-specific antigen with testosterone therapy.

 

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Re: TTh in Men with Biochemical Recurrence and Metastatic PCa: Initial Observations


Testosterone replacement therapy (TRT) has been a topic of controversy since its beginnings almost 90 years ago.1 Initially employed to reverse age-related ailments and as a fountain-of-youth treatment, there was a pendulum shift with the Huggins and Hodges proposal that testosterone activates prostate cancer growth.2

In 1981, Fowler and Whitmore reported that 45 of 52 men with metastatic prostate cancer (MET) who received testosterone demonstrated an unfavorable response within 30 days.3

The ‘‘saturation hypothesis’’ in 2009 challenged the theory that TRT has such detrimental consequences4 and allowed many men with treated localized prostate cancer to successfully gain symptomatic relief. However, there are scant published reports on the clinical use of TRT in men with nonlocalized prostate cancer—men with MET, biochemical recurrence (BCR), or prior androgen deprivation treatment. In fact, the 2018 American Urological Association guidelines on TRT make no recommendation for the use of TRT in hypogonadal men with prostate cancer.5

There have been few case reports or series about TRT in patients with ‘‘active’’ prostate cancer.6 As a recent addition, the aforementioned communication is a retrospective nonrandomized observational study on 22 men with nonlocalized prostate cancer over a 15-year period.7 Of importance, these men sought relief of their hypogonadal symptoms and were appropriately counseled about the risk of prostate cancer progression and death. The median duration of TRT was 12.5 months (range 2–84). The methods report no mortality in the BCR group and only 7% prostate cancer-specific mortality in the MET group who received TRT. The authors reported appropriate outcome measures that are the standard in studies involving prostate cancer.

However, this report specifically—and the topic— should be approached with caution, given the type and design of the study, the high risk of bias, and the potential negative consequences of such treatment. This is a retrospective analysis of a small cohort, with no preset follow-up protocol that truly details who is experiencing progression, and at what interval after initiation of treatment. There is no control for the type of testosterone and level of replacement. The BCR and MET groups are heterogeneous, including patients with different Gleason grades (6–9), time to BCR, and burden of metastasis. There is no matched control group to, again, truly detect if the observed progression is due to treatment or chance.

Historically, conducting randomized clinical trials on prostate cancer has been challenging due to the need for many subjects followed for a long period of time to detect a difference, but this applies mostly to screening and early treatment. Patients with BCR and MET have more rapid disease progression and shorter survival, hence would not need as many years to detect a difference. This has been recently vindicated with the ability to conduct randomized studies for new drugs used in the treatment of the metastatic stage of the disease.8–10 However, the challenge in this setting will be recruiting enough patients with hypogonadism and advanced prostate cancer for the study to be sufficiently powered to detect a meaningful difference. A few strategies have been used to overcome the difficulty in measuring overall and prostate-specific survival; by using surrogates, such as prostate-specific antigen doubling time, radiographic progression, disease progression, and rate of pathological fracture.

Given these limitations, it is likely that the findings of this communication will go unchallenged for many years. As a philosophical choice, some men with active prostate cancer will make the improved quality-of-life decision over the risk of progression and mortality. However, without more concrete evidence, clinicians should be cautioned about the precept that TRT can be used safely in men with advanced BCR and MET prostate cancer. The important findings from the data in this article should lay the groundwork for future controlled research on this important topic.

 

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Testosterone Therapy in Men with Advanced Prostate Cancer: Too Many Unknowns for Safe Use


Accepted practice surrounding the use of exogenous testosterone in the presence of treated or untreated localized prostate cancer has changed dramatically over the past decade. Recent evidence has failed to show an increased risk of de novo disease in the general population,1 or of progression or recurrence in men after definitive therapy or on active surveillance for localized disease.2 This has culminated in recent American Urological Association guidelines on testosterone therapy (TT) reinforcing the lack of evidence connecting TT to de novo prostate cancer, and supporting the safety of TT in men with treated prostate cancer—primarily in men with low or intermediate-risk disease.1

This is all predicated on the saturation hypothesis: that prostate cells will not respond to testosterone above a certain ‘‘saturation’’ threshold, thought to be between 100 and 200 ng/dL.3 In this article, TT in men with biochemical recurrence and metastatic prostate cancer: initial observations by Morgentaler et al., 4 the authors recognize the lack of evidence in men with advanced disease, the morbidity caused by androgen deprivation, and hypothesize that based on prior evidence in localized disease, that testosterone in these men may be safe.

This hypothesis is predicated on the assumption that the saturation hypothesis applies to men with mutated prostate cancer cell lines, as often happens with metastasis or advanced disease.5,6 This is likely not the case, as one can see from data in this series. Prostate-specific antigen increased by >10 points in men with biochemical recurrence and metastatic disease, in men with mean testosterone of 204 ng/dL (range 3–629), above the proposed saturation threshold. In addition, 5 of 22 men died, with 3 dying while on testosterone. Only 10 men of 22 had follow-up imaging, 3 of which showed progression. This seems in line with existing evidence in advanced prostate cancer: increasing testosterone >20 ng/dL in men with metastatic or recurrent prostate cancer is associated with worse outcomes.7 Regardless, the authors have made it clear that men were thoroughly counseled as to the potential risks of TT, and all had spoken to their oncologists beforehand.

Although there is no doubt that these men likely had symptoms severely impacting their quality of life, these data stress the importance of involving the patient’s oncologist and thoroughly counseling them as to the risks of pursuing testosterone in this disease state. Some men had normal serum testosterone in this study, highlighting the importance of searching for other causes of their symptoms before starting them on a medication that may hasten their death. Research into the use of human chorionic gonadotropin or selective estrogen receptor modulators in this population may be worthwhile, as the mutated androgen receptor would be exposed to less testosterone than with exogenous T. Ultimately, until more data are collected, patients must balance the prospect of symptom improvement with the real possibility of progression or death. A multidisciplinary approach should be pursued in these difficult cases, and more in vitro research should be conducted before further use in patients.

 

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Testosterone therapy may be safe for use in men with advanced prostate cancer

Testosterone therapy was not associated with unexpected or rapid disease progression in a cohort of men with biochemical recurrence or metastatic prostate cancer, according to study findings. Abraham Morgentaler, MD, FACS, associate professor of surgery in the department of urology at...

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Testosterone therapy was not associated with unexpected or rapid disease progression in a cohort of men with biochemical recurrence or metastatic prostate cancer, according to study findings.


Abraham Morgentaler, MD, FACS, associate professor of surgery in the department of urology at Beth Israel Deaconess Medical Center, Harvard Medical School, said the findings provide the first solid evidence that testosterone therapy may not be harmful to men with advanced prostate cancer.

“Although the number of men studied here is relatively small, it is clear that the conventional wisdom is wrong that raising testosterone in men with prostate cancer will necessarily precipitate rapid progression and/or death,” Morgentaler told Healio. “Bit by bit over the last 20 years, the urological community has recognized that testosterone therapy can provide important benefits to men and does not appear to worsen outcomes in men with localized prostate cancer or those men being carefully observed with active surveillance for low-risk prostate cancer. However, the standard therapy for men with biochemical recurrence or metastatic disease has been androgen deprivation, which causes weakness, fatigue, muscle loss, fat gain, depression, loss of bone mass, erectile dysfunction, anorgasmia, and loss of libido. Based on these results and my clinical experience with these men, I believe that testosterone therapy is a reasonable option for testosterone-deficient men with biochemical recurrence and symptoms related to their testosterone deficiency.”

Morgentaler and colleagues analyzed data from men who were treated with testosterone therapy at Men’s Health Boston from 2005 to June 2020 and had biochemical recurrence, metastatic prostate cancer or were treated with androgen deprivation therapy for high risk of recurrence after definitive local treatment. Relevant data were collected on prostate cancer status and prior treatment. Prostate-specific antigen (PSA) testing was done at 3-month intervals in the biochemical recurrence group for the first year and every 6 months thereafter. The metastatic prostate cancer group had PSA testing conducted every 3 months. Follow-up imaging was obtained every 6 months for men with metastatic prostate cancer and annually in the biochemical recurrence group.

The findings were published in Androgens: Clinical Research and Therapeutics.

No disease progression for most participants​

There were 22 men included in the study, including 13 with metastatic prostate cancer, seven with biochemical recurrence, and two with adjuvant androgen deprivation therapy. Testosterone therapy increased median PSA from 3.1 ng/mL to 13.3 ng/mL in the biochemical recurrence group, from 6.3 ng/mL to 17.8 ng/mL in the metastatic prostate cancer group, and from less than 0.1 ng/mL to 0.3 ng/mL for those treated with androgen deprivation therapy. The overall mortality rate was 13.6% and the prostate cancer-specific mortality rate was 4.5%.

The biochemical recurrence group had no deaths and one participant developed metastases after 16 months of testosterone therapy. No other complications were observed in the group, and four men continued testosterone therapy for up to 5 years.

The metastatic prostate cancer group had a 21.4% overall mortality rate and a prostate cancer-specific mortality rate of 7.1%. Follow-up imaging 3 to 12 months after starting testosterone therapy was available for 10 men, with seven showing no disease progression and three having new foci of bone metastases. Complications of testosterone included myocardial infarction at 6 months in a participant with three prior strokes, bone marrow replacement more than 3 years after the first development of bone metastases, urinary retention with urosepsis 3 months after testosterone therapy began and a case of recurrent deep vein thrombosis 8 months after testosterone initiation. Of the 11 men who did not die, five continued testosterone therapy.

No adverse events were reported for the androgen deprivation therapy group. One participant discontinued testosterone therapy after 1 year, and the second participant continued testosterone therapy combined with enzalutamide (Xtandi, Astellas/Pfizer).

“These results show that it is possible for men with advanced prostate cancer to do well for extended periods of time with testosterone therapy,” Morgentaler said. “In the past, it would have been considered unethical to do a randomized controlled trial with testosterone therapy as one arm of the study. Further research should now be performed comparing testosterone therapy to no treatment for men with biochemical recurrence, and also a study comparing testosterone therapy vs. androgen deprivation for men with metastatic disease.”

Questions remain on disease progression​

Some researchers said the findings are encouraging but identified several study limitations. In an accompanying editorial, Wayne J.G. Hellstrom, MD, FACS, professor and chief of the section of andrology, and Ayman Soubra, MD, a fellow, both in the department of urology at Tulane University School of Medicine, noted the study had a high risk for bias and lacked a control group and a protocol to detail disease progression.

“Many hypogonadal men do obtain symptomatic relief from testosterone replacement therapy,” Hellstrom told Healio. “Hence, this is definitely a quality-of-life issue. However, the possibility of disease progression remains a concern.”

In a separate accompanying editorial, Jesse Ory, MD, a urologist, and Ranjith Ramasamy, MD, director of reproductive urology, both at the University of Miami, similarly said the study was a good first step, but the lack of complete data with disease progression was a concern.

“Since prostate cancer is a relatively slow process, it is possible that many of these men were progressing while on testosterone, but we don't know because of incomplete data,” Ory and Ramasamy told Healio.

Hellstrom, Ory, and Ramasamy all agreed with Morgentaler on the need for a randomized controlled trial but noted conducting such a study would be difficult. Hellstrom wrote that it will be a challenge to recruit enough men with hypogonadism and advanced prostate cancer for the study to be powered enough to detect significant findings. Ory and Ramasamy suggested the next study randomly assign men with advanced prostate cancer who reduced androgen deprivation to either testosterone or placebo with close follow-up but acknowledged such a study would be difficult to perform.

“One would need to make sure men understand that by forgoing standard of care, they may be accelerating their death from prostate cancer,” Ory and Ramasamy said.

 

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Innovations in Testosterone Therapy in Men Treated for Prostate Cancer

Urology Times® is celebrating its 50th anniversary in 2022. To mark the occasion, we are highlighting 50 of the top innovations and developments that have transformed the field of urology over the past 50 years. In this installment, Amy Pearlman, MD, interviews Mohit Khera, MD, MBA, MPH on how...

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post #6

Testosterone and PCa

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