Study Evaluating Dosimetry, Randomized Dose Optimization, Dose Escalation and Efficacy of Ac-225 Rosopatamab Tetraxetan in Participants With PSMA PET-Positive Castration-Resistant Prostate Cancer
Conditions
PSMA PET-Positive Castration-Resistant Prostate CancerSummary
This is a three-part study evaluating the safety and efficacy of a PSMA-directed radioantibody (rosopatamab tetraxetan, conjugated to either In-111 or Ac-225). Part 1 will consist of one administration of In-111-rosopatamab tetraxetan to characterize the biodistribution of the radioantibody to target organs and prostate cancer lesions. Participants then will be enrolled into either Part 2 (Dose Optimization) or Part 3 (Dose Escalation) depending on their prior treatment history. Participants qualifying for Part 2 will be randomized to receive Ac-225 rosopatamab tetraxetan in a single fractionated cycle (dose administration on Day 1 and Day 15) at either 55 or 60 KBq/Kg. Participants qualifying for Part 3 must have received prior Lu-177-PSMA-radioligand therapy and will receive Ac-225 rosopatamab tetraxetan in a single fractionated cycle at 45, 55, or 60 KBq/Kg. Dose limiting toxicities (DLTs) will be monitored in Part 3 to determine the recommended phase 2 dose (RP2D), and the study may enroll additional participants to be treated with the RP2D dose level. Participants enrolled into any part will attend study visits which will include blood samples, electrocardiogram (ECG), radiographic imaging, and physical examinations along with other assessments.
Locations
2 locations Found with status Recruiting
Status
- RECRUITING
Contact Person
- Dr. Luke Nordquist
Status
- RECRUITING
Eligibility Criteria
Inclusion Criteria:
* Progressive CRPC defined as castrate levels of testosterone and progressing by at least one of the following criteria:
1. Serum PSA progression consisting of two consecutive increases in PSA measured at least 1 week apart. The minimal baseline value is 2.0 ng/mL.
2. Soft tissue progression defined as a ≥20% increase in the sum of the diameter (short axis for nodal lesions and long axis for non-nodal lesions) of all target lesions based on the smallest sum of the diameter since the previous treatment was started or the appearance of one or more new lesions by CT/magnetic resonance imaging (MRI).
3. Progression of bone disease defined by PCWG3 as evaluable disease or new bone lesions by bone scan.
4. Identification of new soft tissue or bone lesions on PSMA PET imaging.
* Metastatic disease defined as either or both of the following:
1. Parts 1, 2 and 3: Documented M1 disease on conventional imaging (CT/MRI of the chest/abdomen/pelvis and/or Technetium 99m [99mTc] whole-body bone scan)
2. Parts 1 and 2 only: Identification of bone lesion(s), extra-pelvic soft tissue lesion(s), or visceral metastases on PSMA PET imaging with an FDA-approved imaging agent
* PSMA PET-positive disease, defined as at least one PSMA-positive metastatic lesion and no PSMA-negative lesions.
* Progression following treatment with ADT and at least one ARSI (e.g., enzalutamide, apalutamide, darolutamide, and/or abiraterone acetate).
Part 3 Only:
* Prior treatment with Lu-177-PSMA-radioligand therapy
* Prior treatment with one taxane-based chemotherapy is allowed, but not required.
Exclusion Criteria:
* Superscans by nuclear medicine/99mTc bone scan.
* A known malignancy that is progressing or has required active treatment within the past 3 years other than CRPC, which is expected to alter life expectancy or may interfere with CRPC disease assessment.
* Prior platinum-based chemotherapy.
* Prior PARP inhibitors (e.g., olaparib or rucaparib).
* Participants receiving anti-coagulants or anti-platelet drugs (e.g., aspirin or nonsteroidal anti-inflammatory drugs [NSAIDs]) who cannot discontinue use if platelet count decreases to <50,000.
Part 2 Only:
* Prior chemotherapy for CRPC. Prior taxane chemotherapy for HSPC is allowed if discontinued ≥1 year prior to randomization.
* Prior radiopharmaceutical therapy (e.g., Ra-223, Lu-177-PSMA-617, or Lu-177-PSMA-I&T).
* Prior PSMA-targeted therapy
Part 3 Only:
* Prior PSMA-targeted therapy (e.g., antibody-drug conjugates or CAR-T therapy), except for Lu-177-PSMA-radioligand therapy.
Study Plan
Part 1: 148 u00b1 37 MBq In-111 rosopatamab tetraxetan
BIOLOGICAL:
In-111 rosopatamab tetraxetanDescription:
A single dose of 148 u00b1 37 MBq In-111 rosopatamab tetraxetan will be administered as an IV infusion over a period of 10 minutes.
Part 2: 55 KBq/kg Ac-225 rosopatamab tetraxetan
BIOLOGICAL:
55 KBq/kg Ac-225 rosopatamab tetraxetanDescription:
55 KBq/kg Ac-225 rosopatamab tetraxetan will be administered as an IV infusion over a period of 10 minutes. Doses will be given two weeks apart for a total of two doses.
Part 2: 60 KBq/kg Ac-225 rosopatamab tetraxetan
BIOLOGICAL:
60 KBq/kg Ac-225 rosopatamab tetraxetanDescription:
60 KBq/kg Ac-225 rosopatamab tetraxetan will be administered as an IV infusion over a period of 10 minutes. Doses will be given two weeks apart for a total of two doses.
Part 3: Dose Escalation
EXPERIMENTAL
Participants previously treated with Lu-177-PSMA-radioligand therapy will be assigned to receive one of the three dose levels (45 KBq/kg, 55 KBq/kg, or 60 KBq/kg) depending on the dose limiting toxicities (DLTs) observed.
BIOLOGICAL:
45 KBq/kg Ac-225 rosopatamab tetraxetanDescription:
45 KBq/kg Ac-225 rosopatamab tetraxetan will be administered as an IV infusion over a period of 10 minutes. Doses will be given two weeks apart for a total of two doses.BIOLOGICAL:
55 KBq/kg Ac-225 rosopatamab tetraxetanDescription:
55 KBq/kg Ac-225 rosopatamab tetraxetan will be administered as an IV infusion over a period of 10 minutes. Doses will be given two weeks apart for a total of two doses.BIOLOGICAL:
60 KBq/kg Ac-225 rosopatamab tetraxetanDescription:
60 KBq/kg Ac-225 rosopatamab tetraxetan will be administered as an IV infusion over a period of 10 minutes. Doses will be given two weeks apart for a total of two doses.
Outcome Measures
Primary Outcome Measures
Part 1: Visual evaluation on whole body planar scans (days 1 and 4) with comparison to reference scans for the presence of radiolabeled rosopatamab textraxetan in organs of interest (e.g., liver, circulation, spleen) to determine biodistribution
Part 2: Incidence of Adverse Events (AEs) and Serious Adverse Events (SAEs) overall, by severity, and leading to discontinuation of study intervention
Part 2: Proportion of participants who achieve a greater than or equal to 50% decline in prostate-specific antigen (PSA50)
Part 3: Incidence of Adverse Events (AEs) and Serious Adverse Events (SAEs) overall, by severity, and leading to discontinuation of study intervention
Part 3: Determine the recommended Phase 2 dose (RP2D) of Ac-225 rosopatamab tetraxetan
Part 3 (Participants treated at RP2D): Proportion of participants who achieve a greater than or equal to 50% decline in prostate-specific antigen (PSA50)
Secondary Outcome Measures
Part 2: Determine the clearance of rosopatamab tetraxetan and Ac-225 rosopatamab tetraxetan via measurement of whole blood and serum levels at specified serial timepoints
Part 2: Radioactivity levels of Ac-225 rosopatamab tetraxetan
Part 2: Radiation dosimetry of Ac-225 rosopatamab tetraxetan: Absorbed radiation dose (expressed as Gy/MBq) in normal organs
Part 2: Biochemical progression-free survival (bPFS) as assessed by the Prostate Cancer Working Group 3 (PCWG3)
Part 3: Proportion of participants who achieve PSA50
Part 3: Determine the clearance of rosopatamab tetraxetan and Ac-225 rosopatamab tetraxetan from the circulation via measurement in the serum at specified serial timepoints
Part 3: Radioactivity levels of Ac-225 rosopatamab tetraxetan
Timeline
Last Updated
October 18, 2024Start Date
August 12, 2024Today
January 16, 2025Completion Date ( Estimated )
April 1, 2027
Sponsors of this trial
Lead Sponsor
Convergent Therapeutics