A Randomized Double-Blind, Placebo-Controlled Study Of The Effects Of MPX Capsules On Rising Prostate-Specific Antigen Levels In Alanine/Alanine SOD2 Genotype Men Following Initial Therapy For Prostate Cancer
Overview
- Phase
- Phase 3
- Intervention
- Muscadine Plus
- Conditions
- Adenocarcinoma of the Prostate
- Sponsor
- Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins
- Enrollment
- 59
- Locations
- 13
- Primary Endpoint
- Prostate Specific Antigen (PSA) Response
- Status
- Terminated
- Last Updated
- 2 years ago
Overview
Brief Summary
This research is being done to determine if men with rising PSA after initial therapy for localized prostate cancer who display the Alanine/Alanine SOD2 genotype of MnSOD and supplement their diet with MPX have greater decrease in PSA slope following treatment compared to men that do not supplement with MPX.
Detailed Description
Prostate specific antigen (PSA) is a single-chain glycoprotein produced by the epithelial cells of the prostate. PSA has been used for early detection and monitoring of patients with prostate cancer who receive a variety of treatments. Due to the widespread use of serum PSA to monitor for prostate cancer recurrence following primary treatment, there exists a group of men with a rising PSA as their only evidence of recurrence. These patients may not demonstrate clinical or radiographic evidence of disease progression for an average 8 years from the time of detectable PSA to detectable metastatic disease by standard imaging. Currently there are limited treatment options for these patients that may delay disease progression or improve survival, including salvage radiation for prior surgical patients, hormonal therapy, and active surveillance. Although some surgical patients are candidates for salvage radiation, not all patients will want salvage radiation. Even the early initiation of hormonal therapy (e.g., luteinizing hormone releasing hormone (LHRH) analogs) has not demonstrated a survival benefit, although Schroder et al suggests an advantage for early hormone therapy in the setting of metastatic regional lymph nodes. Furthermore, early initiation of androgen ablation is associated with significant morbidity and impact on quality of life, including fatigue, hot flashes, loss of libido, decreased muscle mass, and osteoporosis with long term use. This group of relatively well men with biochemical recurrence are currently offered androgen ablation therapy or active surveillance (regular PSA monitoring and annual scans) until there is evidence of metastatic disease, because other options have not been available. These patients are excellent candidates for innovative treatments hypothesized to slow the progression of clinical prostate cancer and delay the development of metastatic disease. As the previous section documents, preclinical studies of muscadine grape skin offer evidence that it may extend the time between biochemical recurrence and development of metastatic disease. While the Phase II study described above found no significant difference in PSA doubling time between placebo and either dose of MPX, there was a signal of benefit in the subgroup analysis of men with the Alanine/Alanine superoxide dismutase 2 (SOD2) genotype that received high dose MPX. It is therefore proposed to test the benefits of high dose MPX in capsule formulation in a randomized, controlled study of men who have failed primary therapy, either radiation, surgery or cryotherapy, as primary treatment for prostate cancer. Eligible subjects will have a rising PSA and will have 3 PSA values at least 7 days apart with a recovered testosterone to be able to calculate a baseline PSA doubling time. The primary endpoint of this study will be mean PSA slope during the study period.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Patients meeting the following conditions are eligible for registration and participation in the study:
- •Subject has histologically or cytologically confirmed adenocarcinoma of the prostate
- •Subject has undergone definitive treatment (surgery, surgery with radiation therapy, cryotherapy, radiation therapy or brachytherapy) for the primary prostate tumor (prior chemotherapy is not allowed) .
- •a. A subject with a rising PSA post-prostatectomy should consider radiation as a potentially curative alternative. If subject declines radiation or is not a candidate for radiation, he may be considered eligible in this setting.
- •Subject has a rising PSA on a minimum of 3 time points (2 rises) within the 12 months prior to study initiation (this will include the PSA measurement taken at the screening visit, but not at the baseline day 0 study visit).
- •For purposes of calculating PSA doubling time (PSADT):
- •All PSA values used in the calculation should be ≥ 0.20 ng/ml and overall should follow a rising trend;
- •Record every available PSA drawn within the last 12 months of the most recent local PSA;
- •The minimum requirement is 3 PSA values obtained over 3 months with a minimum of 4 weeks between measurements;
- •If there are 4 or more PSAs available, the time interval between the first and last PSA measurements must be at least 3 months, and, there is no minimum time interval requirement between any two PSA measurements;
Exclusion Criteria
- •Subjects meeting the following conditions are not eligible for participation in the study:
- •Subject has known radiographic evidence of metastatic disease, except for presence of positive lymph nodes from the surgical pathology. Pelvic/intraperitoneal lymph nodes less than 1.5 cm maybe considered nonspecific and the patient would be eligible. If there is any clinical suspicion for metastatic disease, CT and Bone Scan must be performed to rule out metastatic disease, within the last four months, per standard of care.
- •Subject has received any therapies that modulate testosterone levels (e.g., androgen ablative/anti-androgen therapy, 5 alpha reductase inhibitors) for a minimum of 12 months prior to study.
- •Subject has had prior or concomitant treatment with experimental drugs, high dose steroids, or any other cancer treatment within 4 weeks prior to the first dose of the study product.
- •Subject has consumed any Muscadine Plus over the past 2 months.
- •Subject has a known allergy to muscadine grapes, ellagic acid or rice
- •Subject has uncontrolled concurrent illness including, but not limited to, ongoing or active infection, symptomatic congestive heart failure, unstable angina pectoris, cardiac arrhythmia, or psychiatric illness/social situations that would limit compliance with study requirements.
- •Subject has negative PSA doubling time (negative doubling time corresponds with decreasing PSA) Doubling time may be computed using the Sloan Kettering prediction tools posted at http://www.mskcc.org/applications/nomograms/prostate/PsaDoublingTime.aspx
Arms & Interventions
Muscadine Plus
Each treatment cycle consists of once daily oral dosing of 4000 mg Muscadine Plus, every day throughout each 12 week (84 day) cycle. Patients may continue to receive additional cycles of study drug and will be followed every three months with standard visits with their physician until completion of 48 weeks of study treatment, disease progression, or until they wish to discontinue the drug.
Intervention: Muscadine Plus
Placebo
Each treatment cycle consists of once daily oral dosing of 4000 mg placebos, every day throughout each 12 week (84 day) cycle. Patients may continue to receive additional cycles of placebo and will be followed every three months with standard visits with their physician until completion of 48 weeks of study treatment, disease progression, or until they wish to discontinue the drug.
Intervention: Placebos
Outcomes
Primary Outcomes
Prostate Specific Antigen (PSA) Response
Time Frame: baseline,12, 24, 36, and 48 weeks
To determine if men who display the Alanine/Alanine superoxide dismutase 2 (SOD2) genotype of MnSOD and supplement their diet with MPX have greater changes in PSA slope following treatment compared to men that do not supplement with MPX. PSA response will be measured as the change of serum PSA in ng/mL/month, on-study PSA slope for each patient with comparisons between treatment arms adjusted for pre-study PSA slope; on-study PSA slope was calculated from PSA values taken at baseline,12, 24, 36, and 48 weeks, and calculated as the slope of the simple linear regression of the natural log of PSA versus time in ng/mL/month.
Secondary Outcomes
- PSA Doubling Time(Up to 26 months)
- PSA Objective Response Rate(Up to 1 year)
- PSA Progression(2 years)
- Radiographic Progression(2 years)