Clinical Trials Logo

Clinical Trial Summary

Background & Rationale: About 75% of US population living today will not die of cancer. There has been a recent report of a colony of cancer-resistant mice developed from a single male mouse that unexpectedly survived challenges of lethal cancer cell injections. In these so-called spontaneous regression/complete resistant (SR/CR) mice, cancer cells are killed by rapid infiltration of leukocytes, mainly of innate immunity. This highly effective natural cancer immunity is inherited and mediated entirely by white blood cells. Moreover, this cancer resistance can be transferred to wild type mice through the transfer of various immune cell types including granulocytes. The infusion of white blood cells, particularly cells of innate immunity, is a viable anticancer therapy in humans as well. This proposed trial will test whether white blood cell infusions from healthy unrelated donors can be used to treat cancer. The trial is designed to determine whether responses can be seen in cancer patients after infusion of HLA-mismatched white cells from healthy donors. It is important that the donors and recipients be unrelated and HLA-mismatched to avoid the possibility of transfusion-related Graft vs. Host Disease. The white blood cells from the healthy donors are being collected via apheresis following granulocyte mobilization with dexamethasone and filgrastim. The investigators will refer to the white blood cells as 'granulocytes' because 75-90% of the white blood cells collected through the apheresis will consist of granulocytes. The dose of at least 2x10 to the11th will be given from 4-5 donors at a rate of no more than one donor per day for each recipient. There will only be one infusion per day and no more than 5 infusions per week. Thus, a typical treatment in the study would span 1-2 weeks. After each infusion, the patients will be monitored carefully for possible adverse events. If adverse events occur at any time point during or after individual infusion, the treatment can be stopped until the adverse events can be managed. The daily dose of each infusion is a frequently used level that has a long safety record. The trial will observe the subject's cancer for 3 months after the granulocyte infusions are completed. Response at 90 days will be based on comparison of tumor measurements at baseline. The trial has 3 major endpoints: dose response and tolerance, safety, and efficacy.


Clinical Trial Description

Up to 29 Subjects with metastatic, non-hematological cancer can be entered. Potentially hundreds of healthy Donor-participants will be recruited. A Donor Registry will be built to store ABO/Rh-specific donors; these donors will be tested for HLA-specific genotyping as well as fully tested for infectious diseases. Each patient will be receiving granulocytes from approximately 4 to 6 donors. Each donor will be HLA-mismatched to avoid engraftment of the granulocytes and any transfusion-related GVHD. These infusions will take place over a 1 to 2 week period, the timing of which will be dependent on both the subject's tolerance and the availability of the donors. Subject Response Assessment: For all patients not demonstrating disease progression, response status will be evaluated between Days +90 to +100 after the last infusion. Day+1 is the first day of white cell infusion. All measurable lesions (lesions that can be accurately measured in at least one dimension [longest diameter to be recorded] as ≥20 mm with conventional techniques or as ≥10 mm with spiral CT scan) up to a maximum of 10 lesions representative of all involved organs should be identified as target lesions and will be recorded and measured at baseline. Target lesions should be selected on the basis of their size (lesions with the longest diameter) and their suitability for accurate repetitive measurements (either by imaging techniques or clinically). A sum of the longest diameter (LD) for all target lesions will be calculated and reported as the baseline sum LD. The baseline sum LD will be used as reference to further characterize the objective tumor response of the measurable dimension of the disease. The criteria for response, progression, and relapse are as follows. - Complete Response: Disappearance of all target lesions. - Partial Response (PR): At least a 30% decrease in the sum of the longest diameter (LD) of target lesions taking as reference the baseline sum LD. - Progression (PD): At least a 20% increase in the sum of the LD of target lesions taking as references the smallest sum LD recorded since the treatment started or the appearance of one or more new lesions. - Stable Disease (SD): Neither sufficient shrinkage to qualify for PR nor sufficient increase to qualify for PD taking as references the smallest sum LD since the treatment started. Patients having a documented response with no reconfirmation of the response will be listed with stable disease. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT00900497
Study type Interventional
Source South Florida Bone Marrow/Stem Cell Transplant Institute
Contact
Status Enrolling by invitation
Phase Phase 1/Phase 2
Start date April 2009
Completion date December 2027

See also
  Status Clinical Trial Phase
Active, not recruiting NCT00750841 - Study of the Effect of Rifampicin on the Pharmacokinetics (PK) of Multiple Doses of Cediranib in Patients With Solid Tumours Phase 1
Withdrawn NCT05419817 - Pembrolizumab With Sitravatinib in Recurrent Endometrial Cancer and Other Solid Tumors With Deficient Mismatch Repair System Phase 2
Completed NCT02828930 - A Study to Determine the Excretion Balance, Pharmacokinetics, Metabolism and Absolute Oral Bioavailability of a Single Oral Dose of [14C]-Labeled Idasanutlin and an Intravenous Tracer Dose of [13C]-Labeled Idasanutlin in a Single Cohort of Participants With Solid Tumors (Malignancies) Phase 1
Completed NCT01197170 - Hormone Receptor Positive Disease Across Solid Tumor Types: A Phase I Study of Single-Agent Hormone Blockade and Combination Approaches With Targeted Agents to Provide Synergy and Overcome Resistance Phase 1
Terminated NCT03225105 - M3541 in Combination With Radiotherapy in Solid Tumors Phase 1
Completed NCT03258515 - A Study to Investigate the Effect of Single Dose of AZD6094 (600 mg) on Cardiac Repolarization in Healthy Volunteers Phase 1
Completed NCT01497925 - Ph 1 Trial of ADI-PEG 20 Plus Docetaxel in Solid Tumors With Emphasis on Prostate Cancer and Non-Small Cell Lung Cancer Phase 1
Completed NCT01878890 - Phase I Dose Escalation Trial of Efavirenz in Solid Tumours or Non-Hodgkin Lymphoma in Therapeutic Failure. Phase 1
Active, not recruiting NCT05059522 - Continued Access Study for Participants Deriving Benefit in Pfizer-Sponsored Avelumab Parent Studies That Are Closing Phase 3
Active, not recruiting NCT03634982 - Dose Escalation of RMC-4630 Monotherapy in Relapsed/Refractory Solid Tumors Phase 1
Recruiting NCT04685226 - A Phase I/II Clinical Trial of ICP-723 in the Treatment of Advanced Solid Tumors Phase 1/Phase 2
Recruiting NCT03175224 - APL-101 Study of Subjects With NSCLC With c-Met EXON 14 Skip Mutations and c-Met Dysregulation Advanced Solid Tumors Phase 2
Recruiting NCT06036121 - A Study of ADRX-0706 in Select Advanced Solid Tumors Phase 1
Active, not recruiting NCT03258151 - Association of Genetic Polymorphisms With Docetaxel-based Chemotherapy Toxicities in Chinese Solid Tumor Patients
Completed NCT01528046 - Metformin in Children With Relapsed or Refractory Solid Tumors Phase 1
Recruiting NCT05325866 - A Study Evaluating Bemarituzumab in Solid Tumors With Fibroblast Growth Factor Receptor 2b (FGFR2b) Overexpression Phase 1/Phase 2
Recruiting NCT04557449 - Study to Test the Safety and Tolerability of PF-07220060 in Participants With Advance Solid Tumors Phase 1/Phase 2
Terminated NCT02890368 - Trial of Intratumoral Injections of TTI-621 in Subjects With Relapsed and Refractory Solid Tumors and Mycosis Fungoides Phase 1
Completed NCT02759640 - A Phase I Trial of HS-10241 in Solid Tumors Phase 1
Completed NCT02279433 - A First-in-human Study to Evaluate the Safety, Tolerability and Pharmacokinetics of DS-6051b Phase 1