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Persistent Testosterone Suppression After Cessation of Androgen Deprivation Therapy for Prostate Cancer (2022)
Jessica Delgado, Jesse Ory, Justin Loloi, Nicholas A. Deebel, Ari Bernstein, Sirpi Nackeeran, Isaac Zucker, Ranjith Ramasamy
Abstract
Introduction
Many men receiving temporary androgen deprivation therapy (ADT) for localized prostate cancer fail to achieve baseline testosterone levels after cessation. Testosterone recovery in men with localized prostate cancer receiving temporary ADT was assessed.
Methods
A global federated health research network (TriNetX) was used to identify men diagnosed with prostate cancer undergoing temporary ADT. Two cohorts were identified: men receiving luteinizing hormone-releasing hormone (LHRH) antagonists or LHRH agonists, and men receiving combined ADT (LHRH agonist and antiandrogens). Further stratification was based on a treatment duration of six months (short-term) or 18 months (long-term) to compare testosterone (T) recovery profiles five years after ADT cessation.
Results
A total of 28,583 men received LHRH agonist or antagonist therapy alone, and 20,188 men received combination ADT. A total of 46.7% of men who received short-term LHRH agonists or antagonists and 40.6% of men who received short-term combined ADT, recovered to mean baseline T levels at five years. Only men who received short-term LHRH agonists/antagonists recovered to eugonadal levels at the five-year follow-up. Around 50% of men who received long-term LHRH agonist/antagonist therapy and 10.7% of men who received combined ADT, recovered to mean baseline T levels at five years. However, neither group recovered to eugonadal T levels.
Conclusions
At the five-year follow-up after ADT cessation, most patients failed to recover to their mean baseline and eugonadal T levels. Given that testosterone deficiency is associated with metabolically adverse changes in body composition, increased insulin resistance, impaired bone health, and hypogonadal symptoms, serum T levels must be closely monitored in men receiving ADT following treatment cessation.
Introduction
Prostate cancer (PCa) is the second most common cancer in men following non-melanoma skin cancer [1]. A total of 11.6% of males will be affected in their lifetime, a rate expected to increase with the aging population [1,2]. In its early stages, localized prostate cancer is a hormone-sensitive disease. While definitive therapies such as radical prostatectomy (RP) or radiation therapy (RT) can result in excellent disease-free survival, androgen deprivation therapy (ADT) is often utilized adjunctively in select circumstances to improve outcomes in men with localized PCa. Specifically, ADT is typically given alongside RT for intermediate to high-risk prostate cancer to radiosensitize prostate tissue thereby improving the efficacy of RT [3-6]. Using ADT in this setting is meant to be temporary, being employed anywhere from six to 18 months [5]. Mechanistically, ADT regimens such as those including luteinizing hormone-releasing hormone analogs typically act to imitate hormones secreted by the hypothalamus thus inhibiting the secretion of testosterone from the testicles, resulting in androgen suppression [7].
Recent literature has suggested that testosterone recovery after the temporary use of ADT is not guaranteed. A significant proportion of men fail to return to their baseline testosterone levels years after ADT cessation [2,8]. These men, if properly identified, could benefit from testosterone therapy if symptomatic, as this is oncologically safe in hypogonadal men with previously treated localized prostate cancer or on active surveillance [9]. We currently do not know which men will suffer from persistent hypogonadism after temporary ADT [2]. Whether or not the type or duration of ADT influences testosterone recovery is poorly understood.
This study aimed to investigate testosterone recovery in men with prostate cancer following various temporary ADT modalities and treatment durations. We hypothesized that the majority of patients treated with long-term ADT would have incomplete T recovery following ADT cessation.
Discussion
Previous studies have suggested that temporary ADT can cause persistently low T levels, long after stopping ADT [2,8,11-13]. Understanding factors that can cause persistent suppression of T is important so that these at-risk men can be identified and treated. We used a large, national database to identify men with prostate cancer who received temporary ADT to identify if specific types of ADT or durations of ADT impacted the ability of men to recover their T levels.
We found that the majority of patients undergoing both short-term and long-term ADT failed to recover their T to eugonadal levels five years after treatment cessation. Men who received LHRH agonist or antagonist therapy were more likely to recover their T levels closer to baseline when compared to combined ADT. Additionally, men who received short-term LHRH agonist/antagonist therapy were more likely to regain a higher T level than men on long-term LHRH agonist/antagonist therapy after ADT cessation. Combined ADT recipients did not recover eugonadal baseline T levels at the five-year follow-up. However, short-term combined ADT recipients had higher mean T levels when compared to long-term combined ADT recipients five years after ADT cessation. Therefore, our study supports prior work demonstrating that the duration of ADT affects long-term T levels regardless of medication choice.
Notably, in certain patient cohorts, such as in short- and long-term combined ADT groups, men had hypogonadal baseline T levels. These men recovered to baseline T levels five years after treatment cessation but did not achieve eugonadal T levels. The T recovery for these men appeared higher when compared to other groups, which may be explained by the reduction in the percentage of men with reported five-year follow-ups when compared to the number of men with baseline T levels.
There is a scarcity of research explaining the variation of T recovery profiles in men undergoing different types of ADT. A previous study of men on flutamide and leuprolide for nine months showed a median time to achieve a eugonadal T level was approximately 10 months after cessation, with 30% of men failing to achieve this level two years after the cessation of ADT [14]. Nascimento et al. evaluated 307 men who underwent ADT for prostate cancer with various agents, including gonadotropin hormone-releasing hormone (GnRH) agonists and antagonists for a mean duration of 17 months, and demonstrated that 24 months after cessation of ADT treatment, 8% of men remained at castrate level; additionally, 76% of men returned to a total T level > 300 ng/dl and 51% returned to baseline testosterone level [2]. In their study, lower baseline T levels and ADT duration > 6 months were associated with a lower likelihood of recovery to normal T at 24 months [2]. Thus, though a considerable number of men seemingly achieve T recovery following ADT suppression, it is difficult to specify which particular mechanism might be most contributory to persistent ADT suppression without longer-term studies with robust sample sizes. To answer this question, Spiegel et al. examined localized prostate cancer patients treated with ADT and radiation therapy and developed a nomogram to estimate T recovery [13]. Factors such as “baseline T levels, duration of ADT, body mass index, age, and race” were predictive in estimating the likelihood of post-ADT, testosterone recovery [13].
The strengths of our study include the use of a large multi-institutional database with a diverse subset of patients across over 40 healthcare organizations. We were able to filter our patient cohorts to include specific inclusion criteria such as ADT modality and patient age. The database provided comprehensive demographic data as well as relevant labs and diagnoses. We are also amongst the few studies in the literature to characterize T recovery following varying types of ADT medication and duration. Additionally, due to a lack of specific information regarding the details of prostate cancer treatments, we were unable to account for radiation modalities and the variation in effects on testosterone production. One main limitation is the lack of men without a baseline T level and the limited number of men with a T level drawn at the five-year follow-up. However, this has been a challenge for prior studies as well and could be due to uncaptured mortality. In a study by Nascimientao et al., 81% of patients in their study of early T recovery in patients treated with ADT did not have baseline T levels reported [2]. It is critical to identify baseline T levels for managing expectations in patients undergoing ADT therapy. The provider should discuss the risk of incomplete T recovery in this patient population, especially for those with low baseline T. Another important limitation was that we were unable to determine if these men were symptomatic from low T due to limitations inherent in the TriNetX database.
Future studies on T recovery profiles following ADT cessation should include further analysis of T levels amongst varying ADT treatment regimen groups with longer-term follow-up. This will be especially important as new therapeutic options emerge for ADT therapy. We encourage providers to evaluate baseline T levels in all patients before initiating ADT therapy and to ensure monitoring of post-treatment T levels on a long-term basis to prevent the sequela of undiagnosed persistent T deficiency.
Conclusions
Regardless of the ADT medication type, testosterone recovery to baseline at five years following temporary therapy for localized prostate cancer appears incomplete. Men receiving ADT should have a baseline and posttreatment testosterone levels monitored to detect and prevent the sequela of clinically significant testosterone deficiency.
Jessica Delgado, Jesse Ory, Justin Loloi, Nicholas A. Deebel, Ari Bernstein, Sirpi Nackeeran, Isaac Zucker, Ranjith Ramasamy
Abstract
Introduction
Many men receiving temporary androgen deprivation therapy (ADT) for localized prostate cancer fail to achieve baseline testosterone levels after cessation. Testosterone recovery in men with localized prostate cancer receiving temporary ADT was assessed.
Methods
A global federated health research network (TriNetX) was used to identify men diagnosed with prostate cancer undergoing temporary ADT. Two cohorts were identified: men receiving luteinizing hormone-releasing hormone (LHRH) antagonists or LHRH agonists, and men receiving combined ADT (LHRH agonist and antiandrogens). Further stratification was based on a treatment duration of six months (short-term) or 18 months (long-term) to compare testosterone (T) recovery profiles five years after ADT cessation.
Results
A total of 28,583 men received LHRH agonist or antagonist therapy alone, and 20,188 men received combination ADT. A total of 46.7% of men who received short-term LHRH agonists or antagonists and 40.6% of men who received short-term combined ADT, recovered to mean baseline T levels at five years. Only men who received short-term LHRH agonists/antagonists recovered to eugonadal levels at the five-year follow-up. Around 50% of men who received long-term LHRH agonist/antagonist therapy and 10.7% of men who received combined ADT, recovered to mean baseline T levels at five years. However, neither group recovered to eugonadal T levels.
Conclusions
At the five-year follow-up after ADT cessation, most patients failed to recover to their mean baseline and eugonadal T levels. Given that testosterone deficiency is associated with metabolically adverse changes in body composition, increased insulin resistance, impaired bone health, and hypogonadal symptoms, serum T levels must be closely monitored in men receiving ADT following treatment cessation.
Introduction
Prostate cancer (PCa) is the second most common cancer in men following non-melanoma skin cancer [1]. A total of 11.6% of males will be affected in their lifetime, a rate expected to increase with the aging population [1,2]. In its early stages, localized prostate cancer is a hormone-sensitive disease. While definitive therapies such as radical prostatectomy (RP) or radiation therapy (RT) can result in excellent disease-free survival, androgen deprivation therapy (ADT) is often utilized adjunctively in select circumstances to improve outcomes in men with localized PCa. Specifically, ADT is typically given alongside RT for intermediate to high-risk prostate cancer to radiosensitize prostate tissue thereby improving the efficacy of RT [3-6]. Using ADT in this setting is meant to be temporary, being employed anywhere from six to 18 months [5]. Mechanistically, ADT regimens such as those including luteinizing hormone-releasing hormone analogs typically act to imitate hormones secreted by the hypothalamus thus inhibiting the secretion of testosterone from the testicles, resulting in androgen suppression [7].
Recent literature has suggested that testosterone recovery after the temporary use of ADT is not guaranteed. A significant proportion of men fail to return to their baseline testosterone levels years after ADT cessation [2,8]. These men, if properly identified, could benefit from testosterone therapy if symptomatic, as this is oncologically safe in hypogonadal men with previously treated localized prostate cancer or on active surveillance [9]. We currently do not know which men will suffer from persistent hypogonadism after temporary ADT [2]. Whether or not the type or duration of ADT influences testosterone recovery is poorly understood.
This study aimed to investigate testosterone recovery in men with prostate cancer following various temporary ADT modalities and treatment durations. We hypothesized that the majority of patients treated with long-term ADT would have incomplete T recovery following ADT cessation.
Discussion
Previous studies have suggested that temporary ADT can cause persistently low T levels, long after stopping ADT [2,8,11-13]. Understanding factors that can cause persistent suppression of T is important so that these at-risk men can be identified and treated. We used a large, national database to identify men with prostate cancer who received temporary ADT to identify if specific types of ADT or durations of ADT impacted the ability of men to recover their T levels.
We found that the majority of patients undergoing both short-term and long-term ADT failed to recover their T to eugonadal levels five years after treatment cessation. Men who received LHRH agonist or antagonist therapy were more likely to recover their T levels closer to baseline when compared to combined ADT. Additionally, men who received short-term LHRH agonist/antagonist therapy were more likely to regain a higher T level than men on long-term LHRH agonist/antagonist therapy after ADT cessation. Combined ADT recipients did not recover eugonadal baseline T levels at the five-year follow-up. However, short-term combined ADT recipients had higher mean T levels when compared to long-term combined ADT recipients five years after ADT cessation. Therefore, our study supports prior work demonstrating that the duration of ADT affects long-term T levels regardless of medication choice.
Notably, in certain patient cohorts, such as in short- and long-term combined ADT groups, men had hypogonadal baseline T levels. These men recovered to baseline T levels five years after treatment cessation but did not achieve eugonadal T levels. The T recovery for these men appeared higher when compared to other groups, which may be explained by the reduction in the percentage of men with reported five-year follow-ups when compared to the number of men with baseline T levels.
There is a scarcity of research explaining the variation of T recovery profiles in men undergoing different types of ADT. A previous study of men on flutamide and leuprolide for nine months showed a median time to achieve a eugonadal T level was approximately 10 months after cessation, with 30% of men failing to achieve this level two years after the cessation of ADT [14]. Nascimento et al. evaluated 307 men who underwent ADT for prostate cancer with various agents, including gonadotropin hormone-releasing hormone (GnRH) agonists and antagonists for a mean duration of 17 months, and demonstrated that 24 months after cessation of ADT treatment, 8% of men remained at castrate level; additionally, 76% of men returned to a total T level > 300 ng/dl and 51% returned to baseline testosterone level [2]. In their study, lower baseline T levels and ADT duration > 6 months were associated with a lower likelihood of recovery to normal T at 24 months [2]. Thus, though a considerable number of men seemingly achieve T recovery following ADT suppression, it is difficult to specify which particular mechanism might be most contributory to persistent ADT suppression without longer-term studies with robust sample sizes. To answer this question, Spiegel et al. examined localized prostate cancer patients treated with ADT and radiation therapy and developed a nomogram to estimate T recovery [13]. Factors such as “baseline T levels, duration of ADT, body mass index, age, and race” were predictive in estimating the likelihood of post-ADT, testosterone recovery [13].
The strengths of our study include the use of a large multi-institutional database with a diverse subset of patients across over 40 healthcare organizations. We were able to filter our patient cohorts to include specific inclusion criteria such as ADT modality and patient age. The database provided comprehensive demographic data as well as relevant labs and diagnoses. We are also amongst the few studies in the literature to characterize T recovery following varying types of ADT medication and duration. Additionally, due to a lack of specific information regarding the details of prostate cancer treatments, we were unable to account for radiation modalities and the variation in effects on testosterone production. One main limitation is the lack of men without a baseline T level and the limited number of men with a T level drawn at the five-year follow-up. However, this has been a challenge for prior studies as well and could be due to uncaptured mortality. In a study by Nascimientao et al., 81% of patients in their study of early T recovery in patients treated with ADT did not have baseline T levels reported [2]. It is critical to identify baseline T levels for managing expectations in patients undergoing ADT therapy. The provider should discuss the risk of incomplete T recovery in this patient population, especially for those with low baseline T. Another important limitation was that we were unable to determine if these men were symptomatic from low T due to limitations inherent in the TriNetX database.
Future studies on T recovery profiles following ADT cessation should include further analysis of T levels amongst varying ADT treatment regimen groups with longer-term follow-up. This will be especially important as new therapeutic options emerge for ADT therapy. We encourage providers to evaluate baseline T levels in all patients before initiating ADT therapy and to ensure monitoring of post-treatment T levels on a long-term basis to prevent the sequela of undiagnosed persistent T deficiency.
Conclusions
Regardless of the ADT medication type, testosterone recovery to baseline at five years following temporary therapy for localized prostate cancer appears incomplete. Men receiving ADT should have a baseline and posttreatment testosterone levels monitored to detect and prevent the sequela of clinically significant testosterone deficiency.