Maximal Suppression of the Androgen Axis in Clinically Localized Prostate Cancer
Overview
- Phase
- Phase 2
- Intervention
- goserelin with dutasteride
- Conditions
- Cancer
- Sponsor
- University of Washington
- Enrollment
- 35
- Locations
- 2
- Primary Endpoint
- Prostate Tissue DHT
- Status
- Completed
- Last Updated
- 7 years ago
Overview
Brief Summary
Prostate cancer (CaP) is the most commonly diagnosed cancer among males in the U.S. and the second leading cause of cancer-related mortality. More than 230,000 men will be diagnosed with prostate cancer in the USA this year and more than 30,000 will die of this disease.
Androgen deprivation, the elimination of testosterone and its active metabolites, remains the single most effective intervention available for the treatment of advanced prostate carcinoma. This is usually achieved by surgical removal of the testes (orchiectomy), by suppressing production of testosterone (LHRH agonists) and/or by blocking the androgens at receptor sites (antiandrogens). Unfortunately, androgen suppression does not cure the disease. Most patients progress within 0-5 years, and all patients ultimately progress if the cancer is not eliminated during initial therapy (usually prostatectomy or radiation).
Hormone suppression treatment eliminates the detectable levels of testosterone in the blood. However, the testosterone levels in tissue remain high enough to stimulate androgen receptors. Overexpression of androgen receptors is present in all cell lines which demonstrate "androgen independence," i.e., are resistant to androgen-suppressive therapy.
Approximately 95% of testosterone is supplied by the testes, with the remaining 5% supplied by the adrenal glands. The presumption that standard androgen deprivation achieves the optimal level of androgen suppression for patients is based on the levels of androgen which result from orchiectomy. However, because adrenal androgen levels are unaffected by standard modes of androgen deprivation, 5% of the body's testosterone remains despite hormone therapy.
The hypothesis of this study is that more effective suppression of the androgen axis through elimination of adrenal androgens and more effective suppression of testosterone metabolites will lower intraprostatic androgen levels, minimizing activation of the androgen receptor and augmenting natural cell death (apoptosis). The investigators propose to test this hypothesis by administering neoadjuvant (pre-surgery) androgen deprivation therapy of different types before prostatectomy for patients with clinically localized prostate cancer. The investigators will assay serum and intraprostatic androgen levels, while assessing relative levels of apoptosis of normal and malignant tissue.
Detailed Description
Androgen deprivation has been the principal means of controlling advanced prostate cancer, but does not cure the disease and all patients ultimately progress if the tumor is not eliminated with definitive local therapy. It has been demonstrated that despite androgen deprivation with LHRH agonists or orchiectomy, prostate tissue and prostate cancer maintain levels of androgens which are more than adequate to stimulate the androgen receptor. These levels of androgen may continue to stimulate the receptor and allow both survival of tumor cells and induction of resistance by overexpression of the receptor. The presumption that standard androgen deprivation achieves the optimal level of androgen suppression for patients is based on the levels of androgen achieved with castration, which achieves relatively short term control of cancer in the majority of patients. The hypothesis of this study is that more effective suppression of the androgen axis through elimination of adrenal androgens and more effective suppression of conversion to dihydrotestosterone will lower intraprostatic androgen levels, minimizing activation of the androgen receptor and augmenting apoptosis. We propose to test this hypothesis in a prospective, randomized trial, administering neoadjuvant androgen deprivation therapy of different types prior to radical prostatectomy for patients with clinically localized prostate cancer for 3 months. Plan of therapy Patients with clinically localized (cT1-T2) prostate cancer, at intermediate-high risk for relapse who are candidates for radical prostatectomy will be treated with one of three regimens: * Goserelin with dutasteride * Goserelin with bicalutamide and dutasteride * Goserelin with bicalutamide and dutasteride and ketoconazole Patients will undergo radical prostatectomy 3 months after initiation of treatment. Preoperative and intraoperative biopsies of the prostate gland will be utilized for analysis of prostatic hormones, gene expression and apoptosis.
Investigators
Bruce Montgomery
Professor
University of Washington
Eligibility Criteria
Inclusion Criteria
- •Men 18 years or older with a histologic diagnosis of clinically localized prostate cancer prior to radical prostatectomy as defined by:
- •Clinical stage T1-T2b
- •Prostate specific Antigen (PSA) less than 20
- •Gleason score 7-10
- •Patient's tumor must be considered surgically resectable .
- •Eastern Cooperative Group (ECOG) performance status of 0-
- •Life expectancy greater than 2 years.
- •Able to understand and give informed consent.
- •Laboratory values must be within specified limits.
Exclusion Criteria
- •Patients with locally advanced or high risk disease not meeting the criteria defined above.
- •Patients who have a total testosterone less than 280 ng/dL.
- •Patients who are receiving any other investigational therapy.
- •Patients with an active serious infection or other serious underlying medical condition.
- •Dementia or significantly altered mental status that would prohibit the understanding and/or giving of informed consent.
- •Histologic evidence of small cell carcinoma of the prostate.
- •Patients who are currently receiving active therapy for other neoplastic disorders.
- •Patients who are receiving any androgens, estrogens or progestational agents.
- •Patients who are taking drugs or herbal supplements which affect androgen metabolism (e.g., spironolactone, aprepitant, bexarotene, clarithromycin, itraconazole, ketoconazole, St. John's wort).
- •Patients who have chronic active hepatitis.
Arms & Interventions
Group 1
Goserelin + dutasteride
Intervention: goserelin with dutasteride
Group 2
Bicalutamide for one week, begin goserelin plus dutasteride, continue bicalutamide for the full 12 weeks
Intervention: goserelin with bicalutamide and dutasteride
Group 3
Begin bicalutamide for one week, goserelin injection; begin dutasteride, ketoconazole (and replacement hydrocortisone), continue bicalutamide for the full 12 weeks
Intervention: goserelin with bicalutamide and dutasteride and ketoconazole
Outcomes
Primary Outcomes
Prostate Tissue DHT
Time Frame: After 12 weeks of neoadjuvant androgen deprivation
Tissue dihydrotesterone (DHT)
Secondary Outcomes
- To Determine the Effects of Different Modes of Androgen Deprivation on Serum DHT(After 12 weeks of neoadjuvant androgen deprivation)