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Vaccine Therapy and Pembrolizumab in Treating Patients With Hormone-Resistant, Metastatic Prostate Cancer

The safety and scientific validity of this study is the responsibility of the study sponsor and investigators. Listing a study does not mean it has been evaluated by the U.S. Federal Government. Read our disclaimer for details.
 
ClinicalTrials.gov Identifier: NCT02499835
Recruitment Status : Active, not recruiting
First Posted : July 16, 2015
Results First Posted : December 1, 2022
Last Update Posted : December 1, 2022
Sponsor:
Collaborators:
Prostate Cancer Foundation
Madison Vaccines, Inc
Information provided by (Responsible Party):
University of Wisconsin, Madison

Tracking Information
First Submitted Date  ICMJE July 14, 2015
First Posted Date  ICMJE July 16, 2015
Results First Submitted Date  ICMJE July 25, 2022
Results First Posted Date  ICMJE December 1, 2022
Last Update Posted Date December 1, 2022
Actual Study Start Date  ICMJE July 1, 2015
Actual Primary Completion Date August 9, 2021   (Final data collection date for primary outcome measure)
Current Primary Outcome Measures  ICMJE
 (submitted: November 8, 2022)
  • Incidence of Adverse Events, Using the National Cancer Common Terminology Criteria, Version 4 [ Time Frame: Up to 23 months (Up to 12 months after completion of study treatment) ]
    Toxicities will be summarized by type, as reported in the adverse events section, and total events calculated per arm.
  • 6-month Progression Free Survival Rate [ Time Frame: 6 months ]
    6-month progression-free survival rate will be reported for each arm, and for overall combined study. Progression is at least a 20% increase in the sum of diameters of target lesions and a 0.5cm minimum increase, or the appearance of one or more new lesions. In order to evaluate the 6-month progression-free rate as a function of baseline time point (pretreatment or 3-months post treatment), analysis will be conducted using two different baseline values: date of randomization, and 3-months disease assessment. Central tendency is appropriate due to 20% increase and measurements being a mean of growth across time periods.
  • Median Time to Radiographic Progression [ Time Frame: Up to 2 years ]
    Median time to radiographic progression will be estimated for each, and for both study arms combined, using Kaplan-Meier method. Log-rank test will be used to perform comparison of time to radiographic progression between study arms. A one-sided 0.10 significance level will be used to conduct the comparison of the 6-month progression-free survival rate and time to radiographic progression between study arms. In order to evaluate the median time to radiographic progression as a function of baseline time point (pretreatment or 3-months post treatment), analysis will be conducted.
  • Number of Participants Who Have an Objective Response [ Time Frame: Up to 2 years ]
    Will be calculated for each study arm and for all arms combined. Complete response is the disappearance of all target lesions. Partial response is at least 30% decrease in the sum of diameters of target lesions.
  • Number of Participants Who Have a PSA Response [ Time Frame: Up to 2 years ]
    Will be calculated for each study arm and for all arms combined. PSA complete response is a decrease in PSA to ,0.2 ng/mL; partial response is greater than or equal to 50% reduction in baseline PSA.
Original Primary Outcome Measures  ICMJE
 (submitted: July 14, 2015)
  • Incidence of adverse events, using the National Cancer Common Terminology Criteria, version 4 [ Time Frame: Up to 12 months after completion of study treatment ]
    Toxicities will be summarized by type and severity in tabular format. Toxicity rates (grade 2, grade 3, grade 4, grade >= 2, grade >= 3, etc.) will be calculated for each study arm and reported along the corresponding 95% confidence intervals. The 95% confidence intervals will be constructed using the Wilson score method. Fisher's exact test will be used to compare toxicity rates between study arms.
  • Change in serum chemistry parameters [ Time Frame: Baseline to up to 12 months after completion of study treatment ]
    Serum chemistry and amylase parameters will be summarized using standard descriptive statistics. Changes from the baseline assessment will be evaluated using a paired t-test.
  • 6-month progression free survival rate [ Time Frame: 6 months ]
    6-month progression-free survival rate, along with corresponding two-sided 95% confidence intervals, will be reported for each arm, and for overall combined study. Wilson score method will be used to construct the confidence intervals. Fisher's exact test will be used to compare 6-month progression-free survival rates between study arms. In order to evaluate the 6-month progression-free rate as a function of baseline time point (pretreatment or 3-months post treatment, analysis will be conducted using two different baseline values: date of randomization, and 3-months disease assessment.
  • Median time to radiographic progression [ Time Frame: Up to 2 years ]
    Median time to radiographic progression will be estimated for each, and for both study arms combined, using Kaplan-Meier method. Log-rank test will be used to perform comparison of time to radiographic progression between study arms. A one-sided 0.10 significance level will be used to conduct the comparison of the 6-month progression-free survival rate and time to radiographic progression between study arms. In order to evaluate the median time to radiographic progression as a function of baseline time point (pretreatment or 3-months post treatment), analysis will be conducted.
  • Objective response rate [ Time Frame: Up to 2 years ]
    Will be calculated for each study arm and for both arms combined along with the corresponding 95% confidence intervals. The Wilson score method will be used to construct the confidence intervals. Fisher's exact test will be used to compare the objective response and PSA response rates between study arms. Duration of response will be analyzed using the Kaplan-Meier method.
  • PSA response rate [ Time Frame: Up to 2 years ]
    Will be calculated for each study arm and for both arms combined along with the corresponding 95% confidence intervals. The Wilson score method will be used to construct the confidence intervals. Fisher's exact test will be used to compare the objective response and PSA response rates between study arms. Duration of response will be analyzed using the Kaplan-Meier method.
Change History
Current Secondary Outcome Measures  ICMJE
 (submitted: November 8, 2022)
  • PAP-specific Immune Response [ Time Frame: Up to 2 years ]
    Number of PAP-specific immune responses will be summarized in tabular format for each study arm and all study arms combined. A significant antigen-specific response resulting from immunization will be defined as a PAP specific response.
  • PAP-specific T-cell Response [ Time Frame: Up to 2 years ]
    Number and frequencies of PAP-specific T-cell responses will be summarized in tabular format.
  • PD-1 Expression [ Time Frame: Up to day 85 ]
    PD-1 and PD-L1 expression levels will be summarized in terms of means, standard deviations and ranges for each study arm separately and for both arms combined. A linear regression model or a negative binomial regression model will be utilized to evaluate effects of schedule (concurrent versus delayed administration pembrolizumab) on PD-1 expression on number of circulating T cells, and PD-L1 expression on number of circulating epithelial cells. Choice of the model will be dependent on distribution of outcome variables (number of circulating T-cells and number of circulating epithelial cells).
  • PD-L1 Expression [ Time Frame: Up to day 85 ]
    PD-1 and PD-L1 expression levels will be summarized in terms of means, standard deviations and ranges for each study arm separately and for both arms combined. A linear regression model or a negative binomial regression model will be utilized to evaluate effects of schedule (concurrent versus delayed administration pembrolizumab) on PD-1 expression on number of circulating T cells, and PD-L1 expression on number of circulating epithelial cells. Choice of the model will be dependent on distribution of outcome variables (number of circulating T-cells and number of circulating epithelial cells).
Original Secondary Outcome Measures  ICMJE
 (submitted: July 14, 2015)
  • PAP-specific immune response [ Time Frame: Up to 2 years ]
    Number and frequencies of PAP-specific immune responses will be summarized in tabular format for each study arm and both study arms combined. A log-linear model will be used to evaluate whether PAP-specific immune response predicts 6-months progression-free survival rate. Interaction between treatment (pembrolizumab administered sequentially versus delayed) and PAP-specific immune response will be included in the model. Analogously, a Cox proportional hazard regression model will be used to examine the association between PAP-specific immune response and time to radiographic progression.
  • PAP-specific T-cell response [ Time Frame: Up to 2 years ]
    Number and frequencies of PAP-specific T-cell responses will be summarized in tabular format. Fisher's exact test will be used to compare the PAP-specific T-cell response rates between study arms.
  • PD-1 expression [ Time Frame: Up to day 85 ]
    PD-1 and PD-L1 expression levels will be summarized in terms of means, standard deviations and ranges for each study arm separately and for both arms combined. A linear regression model or a negative binomial regression model will be utilized to evaluate effects of schedule (concurrent versus delayed administration pembrolizumab) on PD-1 expression on number of circulating T cells, and PD-L1 expression on number of circulating epithelial cells. Choice of the model will be dependent on distribution of outcome variables (number of circulating T-cells and number of circulating epithelial cells).
  • PD-L1 expression [ Time Frame: Up to day 85 ]
    PD-1 and PD-L1 expression levels will be summarized in terms of means, standard deviations and ranges for each study arm separately and for both arms combined. A linear regression model or a negative binomial regression model will be utilized to evaluate effects of schedule (concurrent versus delayed administration pembrolizumab) on PD-1 expression on number of circulating T cells, and PD-L1 expression on number of circulating epithelial cells. Choice of the model will be dependent on distribution of outcome variables (number of circulating T-cells and number of circulating epithelial cells).
Current Other Pre-specified Outcome Measures Not Provided
Original Other Pre-specified Outcome Measures
 (submitted: July 14, 2015)
  • Change in number of circulating tumor cells [ Time Frame: Baseline to up to day 85 ]
    Will be summarized in terms of means and standard deviations. Within each arm, and for both arms combined, changes in the number of circulating tumor cells from the pre-treatment (date of screening/randomization) to the post-treatment assessments (day 43, day 85, day 169, month 9, and off-study) assessments will be evaluated using a paired t-test. A two-sample t-test will be used to compare number of circulating tumor cells at each time point, and changes in number of circulating tumor cells from the pre-treatment assessment, between study arms.
  • PAP-specific antibody responses [ Time Frame: Up to 2 years ]
    The number and frequency of PAP-specific antibody responses will be summarized in tabular format, stratified by study arm and for both arms combined. A generalized linear mixed effects model with subject specific random effects will be used to evaluate the treatment effect of the proposed pTVG-HP DNA vaccine and pembrolizumab (sequentially versus concurrently) combination on PAP-specific antibody response.
  • Immunologic antigen spread to other prostate associated antigens [ Time Frame: Up to 2 years ]
    The detection of antigen spread to other prostate associated antigens, and the identification of specific antigens recognized, will be analyzed descriptively. Furthermore, linear regression analysis will be conducted to evaluate whether treatment with either sequence (pembrolizumab administered sequentially or concurrently) elicits immunologic antigen spread to other prostate associated antigens.
  • Clinical response [ Time Frame: Up to 2 years ]
    Logistic regression analysis will be conducted to examine whether pre-existing or vaccine induced PD-L1 expression on CEC or tumor biopsies predict clinical response. This analysis will be conducted for both arms combined. The results will be summarized in terms of odds ratios along with the corresponding 95% confidence intervals.
  • Regulatory molecules on tumor-specific T cells or tumor cells [ Time Frame: Up to day 85 ]
    Linear regression analysis will be conducted to determine whether treatment with either sequence elicits other regulatory molecules on tumor-specific T cells or tumor cells.
  • PD-1-regulated antigen specific T-cell responses [ Time Frame: Up to day 85 ]
    The number and frequencies of PD-1-regulated antigen specific T-cell responses will be summarized in tabular format. Logistic regression analysis will be conducted to examine whether PD-1 regulated antigen-specific T-cells predict clinical response. The sensitivity, specificity, negative predictive value and positive predictive value of PD-1 regulated antigen specific T-cell responses for predicting clinical response will be calculated and reported along with the corresponding 95% confidence intervals.
  • Changes in FLT uptake by FLT PET/CT after treatment with pTVG-HP with or without pembrolizumab [ Time Frame: Baseline to day 85 ]
    Standard PET parameters, including standard uptake value (SUV)total, SUVmax, SUVmean, and the number of lesions, in terms of soft tissue lesions and major lymph node groups, will be obtained. Parameters will be summarized in terms of means, standard deviations and ranges. Within each arms and for both arms combined, changes in parameters will be evaluated using a paired t-test (for SUV) or nonparametric Wilcoxon signed rank test (number of lesions). Since the distribution of SUV values is generally skewed, a log-transformation will be utilized before conducting the comparisons.
 
Descriptive Information
Brief Title  ICMJE Vaccine Therapy and Pembrolizumab in Treating Patients With Hormone-Resistant, Metastatic Prostate Cancer
Official Title  ICMJE Pilot Trial of pTVG-HP DNA Vaccine and Pembrolizumab in Patients With Castration-Resistant, Metastatic Prostate Cancer
Brief Summary This randomized pilot trial studies vaccine therapy and pembrolizumab in treating patients with prostate cancer that does not respond to treatment with hormones (hormone-resistant) and has spread to other places in the body (metastatic). Vaccines made from deoxyribonucleic acid (DNA), such as pTVG-HP plasmid DNA vaccine, may help the body build an effective immune response to kill tumor cells. Monoclonal antibodies, such as pembrolizumab, may find tumor cells and help kill them. Giving pTVG-HP plasmid DNA vaccine and pembrolizumab may kill more tumor cells.
Detailed Description

PRIMARY OBJECTIVES:

I. To evaluate the safety of pembrolizumab in combination with pTVG-HP (pTVG-HP plasmid DNA vaccine) in patients with castration-resistant, metastatic prostate cancer.

II. To determine the 6-month progression-free survival and median time to radiographic progression in patients with castration-resistant metastatic prostate cancer treated with pembrolizumab in combination with pTVG-HP.

III. To evaluate the anti-tumor response rates (objective response rate and prostate specific antigen [PSA] response rate, using Prostate Cancer Clinical Trials Working Group 2 [PCWG2] criteria) in patients with castration-resistant metastatic prostate cancer treated with pembrolizumab in combination with pTVG-HP.

SECONDARY OBJECTIVES:

I. To determine whether either treatment sequence, or prostatic acid phosphatase (PAP)-specific immune response, is associated with prolonged (6-month) radiographic progression-free survival.

II. To evaluate effects of schedule (concurrent versus delayed administration of pembrolizumab) on the magnitude of PAP-specific T-cell responses, programmed death receptor-1 (PD-1) expression on circulating T cells, and ligands for PD-1 (PD-L1) expression on circulating epithelial cells (CEC) and on tumor biopsies.

III. To determine the median time to radiographic progression using a concurrent administration schedule

TERTIARY OBJECTIVES:

I. To evaluate effects of treatment on number of circulating tumor cells. II. To evaluate PAP-specific antibody responses following treatment with pembrolizumab and pTVG-HP DNA vaccine (pTVG-HP plasmid DNA vaccine).

III. To determine whether either treatment sequence elicits immunologic antigen spread to other prostate-associated antigens.

IV. To determine whether pre-existing or vaccine-induced PD-L1 expression on CEC or tumor biopsies is predictive of objective clinical response.

V. To determine whether treatment elicits expression of other regulatory molecules on tumor-specific T cells (e.g. hepatitis A virus cellular receptor 2 [TIM3], B and T lymphocyte associated [BTLA], and lymphocyte-activation gene 3 [LAG3]) or tumor cells (e.g. tumor necrosis factor receptor superfamily, member 14 [HVEM], phosphatidyl serine, ligands for programmed death receptor-2 [PD-2] [PD-L2]).

VI. To determine whether PD-1-regulated antigen-specific T cells identified by trans vivo delayed-type hypersensitivity (DTH) testing can identify patients who develop objective clinical responses with PD-1 blockade therapy in combination with pTVG-HP.

VII. To determine whether changes in lymph nodes and soft tissue tumor lesions are observed by fluorothymidine F-18 (FLT) positron emission tomography (PET)/computed tomography (CT) after treatment with vaccine with or without pembrolizumab.

VIII. To determine if PD-1 inhibitor therapy in combination with pTVG-HP will change number and activity (SUV) in osteoblastic metastases as measured by NaF PET/CT.

OUTLINE: Patients are randomized to 1 of 2 treatment arms.

ARM I: Patients receive pTVG-HP plasmid DNA vaccine intradermally (ID) every other week on days 1, 15, 29, 43, 57, and 71 and pembrolizumab intravenously (IV) over 30 minutes every 3 weeks on days 1, 22, 43, and 64.

ARM II: Patients receive pTVG-HP plasmid DNA vaccine ID as in Arm I and pembrolizumab IV over 30 minutes every 3 weeks on days 85, 106, 127, and 148.

After completion of study treatment, patients are followed up 3, 6, 9, and 12 months and then annually for 2 years.

ARM III: Extended Treatment. Patients received pTVG-HP + Pembrolizumab Extended Treatment

ARM IV: Extended Treatment. Patients receive pTVG-HP every two weeks, and Pembrolizumab every 4 weeks

Study Type  ICMJE Interventional
Study Phase  ICMJE Phase 1
Phase 2
Study Design  ICMJE Allocation: Randomized
Intervention Model: Parallel Assignment
Intervention Model Description:
Once at least 12 subjects per arm are accrued to Arms 1 and 2, and Arm 3 is open to accrual, accrual will occur only to Arm 3 (other arms will be closed). Extended treatment Arm 4 will open only when Arm 3 has met accrual.
Masking: None (Open Label)
Primary Purpose: Treatment
Condition  ICMJE
  • Hormone-Resistant Prostate Cancer
  • Metastatic Malignant Neoplasm in the Bone
  • Metastatic Malignant Neoplasm in the Soft Tissues
  • Metastatic Prostate Carcinoma
  • Prostate Adenocarcinoma
  • Recurrent Prostate Carcinoma
  • Stage IV Prostate Cancer
Intervention  ICMJE
  • Biological: Pembrolizumab
    Given IV
    Other Names:
    • 1374853-91-4
    • Immunoglobulin G4
    • Anti-(Human Programmed Cell Death 1)
    • Lambrolizumab
    • Keytruda
    • MK-3475
    • SCH 900475
  • Biological: pTVG-HP Plasmid DNA Vaccine
    Given ID
Study Arms  ICMJE
  • Experimental: Arm I (pTVG-HP plasmid DNA vaccine, concurrent pembrolizumab)
    Patients receive pTVG-HP plasmid DNA vaccine ID every other week on days 1, 15, 29, 43, 57, and 71 and pembrolizumab IV over 30 minutes every 3 weeks on days 1, 22, 43, and 64.
    Interventions:
    • Biological: Pembrolizumab
    • Biological: pTVG-HP Plasmid DNA Vaccine
  • Experimental: Arm II (pTVG-HP plasmid DNA vaccine, sequential pembrolizumab)
    Patients receive pTVG-HP plasmid DNA vaccine ID as in Arm I and pembrolizumab IV over 30 minutes every 3 weeks on days 85, 106, 127, and 148.
    Interventions:
    • Biological: Pembrolizumab
    • Biological: pTVG-HP Plasmid DNA Vaccine
  • Experimental: Extended Treatment Arm III
    pTVG-HP (100 μg) with rhGM-CSF (208 μg) administered intradermally (i.d.) every 3 weeks, for a maximum of 16 doses. Pembrolizumab 2 mg/kg, with a maximum dose of 200 mg, administered intravenously every 3 weeks, for a maximum of 16 doses, beginning on day 1 after the first pTVG-HP vaccination.
    Interventions:
    • Biological: Pembrolizumab
    • Biological: pTVG-HP Plasmid DNA Vaccine
  • Experimental: Extended Treatment Arm IV
    pTVG-HP (100 µg) with rhGM-CSF (208 µg) administered intradermally (i.d.) every 2 weeks, for a maximum of 24 doses Pembrolizumab 2 mg/kg, with a maximum dose of 200 mg, administered intravenously every 4 weeks, for a maximum of 12 doses, beginning on day 1 after the first pTVG-HP vaccination
    Interventions:
    • Biological: Pembrolizumab
    • Biological: pTVG-HP Plasmid DNA Vaccine
Publications *

*   Includes publications given by the data provider as well as publications identified by ClinicalTrials.gov Identifier (NCT Number) in Medline.
 
Recruitment Information
Recruitment Status  ICMJE Active, not recruiting
Actual Enrollment  ICMJE
 (submitted: November 9, 2020)
66
Original Estimated Enrollment  ICMJE
 (submitted: July 14, 2015)
32
Estimated Study Completion Date  ICMJE June 2023
Actual Primary Completion Date August 9, 2021   (Final data collection date for primary outcome measure)
Eligibility Criteria  ICMJE

Inclusion Criteria:

  • Histologically confirmed diagnosis of prostate cancer (adenocarcinoma of the prostate)
  • Metastatic disease as evidenced by the presence of soft tissue and/or bone metastases on imaging studies (CT of abdomen/pelvis, bone scintigraphy)
  • Castrate-resistant disease, defined as follows:

    • All patients must have received (and be receiving) standard of care androgen deprivation treatment (surgical castration versus gonadotropin-releasing hormone [GnRH] analogue or antagonist treatment); subjects receiving GnRH analogue or antagonist must continue this treatment throughout the time on this study
    • Patients may or may not have been treated previously with a nonsteroidal antiandrogen; for patients previously treated with an antiandrogen, they must be off use of anti-androgen for at least 4 weeks (for flutamide) or 6 weeks (for bicalutamide or nilutamide) prior to registration; moreover, subjects who demonstrate an anti-androgen withdrawal response, defined as a >= 25% decline in PSA within 4-6 week of stopping a nonsteroidal antiandrogen, are not eligible until the PSA rises above the nadir observed after antiandrogen withdrawal
    • Patients must have a castrate serum level of testosterone (< 50 ng/dL) within 6 weeks of day 1
  • Progressive disease while receiving androgen deprivation therapy defined by any one of the following as per the Prostate Cancer Clinical Trials Working Group 2 (PCWG2) bone scan criteria or Response Evaluation Criteria in Solid Tumors (RECIST) 1.1 during or after completing last therapy:

    • PSA: at least two consecutive rises in serum PSA, obtained at a minimum of 1-week intervals, with the final value >= 2.0 ng/mL
    • Measurable disease: >= 50% increase in the sum of the cross products of all measurable lesions or the development of new measurable lesions; the short axis of a target lymph node must be at least 15 mm by spiral CT to be considered a target lesion
    • Non-measurable (bone) disease: the appearance of two or more new areas of uptake on bone scan (or fluorine F 18 sodium fluoride [NaF] PET/CT) consistent with metastatic disease compared to previous imaging during castration therapy; the increased uptake of pre-existing lesions on bone scan will not be taken to constitute progression, and ambiguous results must be confirmed by other imaging modalities (e.g. X-ray, CT or magnetic resonance imaging [MRI])
  • Prior treatment with abiraterone or enzalutamide is permitted, but patients must have been off prior corticosteroid treatment for at least 3 months
  • Life expectancy of at least 6 months
  • Patients must have an Eastern Cooperative Oncology Group (ECOG) performance status of 0, 1, or 2
  • White blood cells (WBC) >= 2000/mm^3
  • Absolute neutrophil count (ANC) >= 1000/mm^3
  • Hemoglobin (HgB) >= 9.0 gm/dL
  • Platelets >= 100,000/mm^3
  • Creatinine =< 2.0 mg/dL
  • Aspartate aminotransferase (AST), alanine aminotransferase (ALT) =< 2.5 x institutional upper limit of normal
  • No known history of human immunodeficiency virus (HIV) 1 and 2, human T-lymphotropic virus (HTLV)-1, or active hepatitis B or hepatitis C
  • Patients must be at least 4 weeks from any prior treatments and have recovered (to < grade 2) from acute toxicity attributed to this prior treatment, unless considered chronic
  • Patients must be willing and able (in the opinion of the treating physician) to undergo two research biopsies for the investigational component of this trial
  • Patients must be willing to undergo two leukapheresis procedures for the investigational component of this trial
  • Patients must be willing to undergo FLT PET/CT or NaF PET/CT scans for the investigational component of this trial and have no known allergies to FLT or NaF
  • For those patients who are sexually active, they must be willing to use barrier contraceptive methods during the period of treatment on this trial (and for four weeks after the last DNA immunization treatment for patients in Arm 1)
  • Patients must be informed of the experimental nature of the study and its potential risks, and must sign an Institutional Review Board (IRB)-approved written informed consent form indicating such an understanding

Exclusion Criteria:

  • Small cell or other variant (non-adenocarcinoma) prostate cancer histology, unless there is evidence that the tumor expresses PAP
  • Patients may not be receiving other investigational agents or be receiving concurrent anticancer therapy other than standard androgen deprivation therapy
  • Concurrent bisphosphonate therapy is not excluded, however patients should not start bisphosphonate therapy while on this study; those patients already receiving bisphosphonate therapy should continue at the same dosing and schedule as prior to study entry
  • Rapidly progressive symptomatic metastatic disease, as defined by the need for increased opioid analgesics within one month of registration for the treatment of pain attributed to a prostate cancer metastatic lesion; patients receiving opioids must receive approval from the principal investigator (PI) for eligibility
  • Treatment with any of the following medications within 28 days of registration, or while on study, is prohibited:

    • Systemic corticosteroids (at doses over the equivalent of 5 mg prednisone daily) - not permitted within 3 months of registration; inhaled, intranasal or topical corticosteroids are acceptable
    • Prostate cancer (PC)-SPES
    • Saw palmetto
    • Megestrol
    • Ketoconazole
    • 5-alpha-reductase inhibitors - patients already taking 5-alpha-reductase inhibitors prior to 28 days prior to registration may stay on these agents throughout the course of therapy, but these should not be started while patients are on study
    • Diethyl stilbestrol
    • Abiraterone
    • Enzalutamide
    • Radium 223 (Xofigo)
    • Any other hormonal agent or supplement being used with the intent of cancer treatment
  • External beam radiation therapy within 4 weeks of registration is prohibited, or anticipated need for radiation therapy (e.g. imminent pathological fracture or spinal cord compression) within 3 months of registration
  • Major surgery within 4 weeks of registration is prohibited
  • Prior cytotoxic chemotherapy (for example, but not limited to, docetaxel, mitoxantrone, cabazitaxel) within 6 months of registration is prohibited
  • Patients with a history of life-threatening autoimmune disease
  • Patients with a history of allergic reactions to filgrastim (GM-CSF) or the tetanus vaccine
  • Patients who have undergone splenectomy
  • Patients must not have other active malignancies other than non-melanoma skin cancers or superficial bladder cancer; subjects with a history of other cancers who have been adequately treated and have been recurrence-free for >= 3 years are eligible
  • Patients with known brain metastases
  • Any antibiotic therapy or evidence of infection within 1 week of registration
  • Any other medical intervention or condition, which, in the opinion of the PI or treating physician, could compromise patient safety or adherence with the study requirements (including biopsies or leukapheresis procedures) over the primary 3-6 month treatment period
  • Patients cannot have concurrent enrollment on other phase I, II, or III investigational treatment studies

NOTE: There is no exclusion for prior immune-based therapy. This includes patients previously treated on Arms 1 or 2 who are otherwise eligible for treatment on Arm 3 or 4.

Sex/Gender  ICMJE
Sexes Eligible for Study: Male
Ages  ICMJE 18 Years and older   (Adult, Older Adult)
Accepts Healthy Volunteers  ICMJE No
Contacts  ICMJE Contact information is only displayed when the study is recruiting subjects
Listed Location Countries  ICMJE United States
Removed Location Countries  
 
Administrative Information
NCT Number  ICMJE NCT02499835
Other Study ID Numbers  ICMJE UW15014
2015-0453 ( Other Identifier: IRB )
NCI-2015-01154 ( Registry Identifier: NCI CTRP )
A534260 ( Other Identifier: UW Madison )
SMPH\MEDICINE\HEM-ONC ( Other Identifier: UW Madison )
Protocol Version 3/19/2018 ( Other Identifier: UW Madison )
Has Data Monitoring Committee Yes
U.S. FDA-regulated Product
Studies a U.S. FDA-regulated Drug Product: Yes
Studies a U.S. FDA-regulated Device Product: No
IPD Sharing Statement  ICMJE Not Provided
Current Responsible Party University of Wisconsin, Madison
Original Responsible Party Same as current
Current Study Sponsor  ICMJE University of Wisconsin, Madison
Original Study Sponsor  ICMJE Same as current
Collaborators  ICMJE
  • Prostate Cancer Foundation
  • Madison Vaccines, Inc
Investigators  ICMJE
Principal Investigator: Douglas G McNeel, MD PhD University of Wisconsin, Madison
PRS Account University of Wisconsin, Madison
Verification Date November 2022

ICMJE     Data element required by the International Committee of Medical Journal Editors and the World Health Organization ICTRP