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Alkylating agents

Donor Lymphocyte Infusion for Blood Cancers

Phase 1 & 2
Recruiting
Led By Christopher G Kanakry, M.D.
Research Sponsored by National Cancer Institute (NCI)
Eligibility Criteria Checklist
Specific guidelines that determine who can or cannot participate in a clinical trial
Must have
Recipient must have at least one potentially suitable HLA-haploidentical or HLA-matched donor
Recipient must have a histologically or cytologically confirmed hematologic malignancy classified as high or very high disease risk
Must not have
Recipient must not have had prior myeloablative conditioning for autologous or allogeneic HCT
Recipient must not have active malignancy of non-hematopoietic type that is metastatic, relapsed/refractory, or locally advanced and not amenable to curative treatment
Timeline
Screening 3 weeks
Treatment Varies
Follow Up 1 year
Awards & highlights
No Placebo-Only Group

Summary

This trial is testing if giving white blood cells from a donor to patients with high-risk blood cancers can reduce the risk of the cancer coming back. The goal is to see if this approach helps fight off remaining cancer cells and prevents relapse.

Who is the study for?
Adults aged 18-65 with high-risk blood cancers like leukemia, lymphoma, myelodysplastic syndrome, or multiple myeloma that are hard to treat or likely to come back. They need a healthy relative who can donate bone marrow and white blood cells for the study.
What is being tested?
The trial is testing if giving patients donor lymphocytes (white blood cells) from their transplant donor soon after a bone marrow transplant can lower the chance of cancer coming back. It includes chemotherapy drugs and staying near NIH for monitoring.
What are the potential side effects?
Possible side effects include reactions to donor cells, increased risk of infections due to immune suppression from chemotherapy and other medications used in the process, as well as typical chemo-related issues like nausea, fatigue, hair loss.

Eligibility Criteria

Inclusion Criteria

You may be eligible if you check “Yes” for the criteria below
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I have a donor who matches my HLA type.
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My blood cancer is confirmed to be at a high or very high risk.
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I can care for myself but may need occasional help.
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I am between 18 and 65 years old.
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My heart, lungs, kidneys, and liver are functioning well.

Exclusion Criteria

You may be eligible for the trial if you check “No” for criteria below:
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I have not undergone intense bone marrow preparation for stem cell transplant.
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I do not have an active, spreading, or untreatable cancer besides blood cancer.

Timeline

Screening ~ 3 weeks
Treatment ~ Varies
Follow Up ~1 year
This trial's timeline: 3 weeks for screening, Varies for treatment, and 1 year for reporting.

Treatment Details

Study Objectives

Study objectives can provide a clearer picture of what you can expect from a treatment.
Primary study objectives
determine the maximally tolerated dose of DLI that can be safely administered after HLA-matched-related HCT and after HLA-haploidentical HCT
Secondary study objectives
determine, at the maximally tolerated dose in the phase II portion of the study, the cumulative incidences of Grades II-IV and Grades III-IV aGVHD at days +100 and +200 for HLA-matched-related and HLA-haploidentical
determine, at the maximally tolerated dose in the phase II portion of the study, the cumulative incidences of Steroid-refractory Grades II-IV and Grades III-IV aGVHD at days +100 and +200 for HLA-matched-related and HLA-haploidentical
determine, at the maximally tolerated dose in the phase II portion of the study, the cumulative incidences of chronic GVHD at 1 year for HLA-matched-related and HLA-haploidentical
+4 more

Awards & Highlights

No Placebo-Only Group
All patients enrolled in this study will receive some form of active treatment.

Trial Design

5Treatment groups
Experimental Treatment
Active Control
Group I: Phase II Efficacy, Cohort 2 (haploidentical)Experimental Treatment6 Interventions
DLI at maximally tolerated, safe dose (from Phase I) to assess secondary clinical outcomes at this dosing level (up to 14 additional evaluable patients in each cohort)
Group II: Phase II Efficacy, Cohort 1 (matched)Experimental Treatment6 Interventions
DLI at maximally tolerated, safe dose (from Phase I) to assess secondary clinical outcomes at this dosing level (up to 14 additional evaluable patients in each cohort)
Group III: Phase I Dose Escalation, Cohort 2 (haploidentical)Experimental Treatment6 Interventions
DLI at escalating doses (1 x 10\^5 CD3+ cells/kg, 3 x 10\^5 CD3+ cells/kg, and 1 x 10\^6 CD3+ cells/kg) on day +7 or +21 to assess for safety and determine Phase II dose (up to 18 evaluable patients)
Group IV: Phase I Dose Escalation, Cohort 1 (matched)Experimental Treatment6 Interventions
DLI at escalating doses (1 x 10\^6 CD3+ cells/kg, 3 x 10\^6 CD3+ cells/kg, and 1 x 10\^7 CD3+ cells/kg) on day +7 or +21 to assess for safety and determine Phase II dose (up to 18 evaluable patients)
Group V: Donor ArmActive Control1 Intervention
Donors for Recipients in Arms 1-4
Treatment
First Studied
Drug Approval Stage
How many patients have taken this drug
Sirolimus
2013
Completed Phase 4
~2750
Fludarabine
2012
Completed Phase 4
~1860
donor lymphocyte infusion
2016
Completed Phase 3
~260
Cyclophosphamide
2010
Completed Phase 4
~2310
Mycophenolate mofetil
2014
Completed Phase 4
~3060
Busulfan
2008
Completed Phase 4
~1710

Research Highlights

Information in this section is not a recommendation. We encourage patients to speak with their healthcare team when evaluating any treatment decision.
Mechanism Of Action
Side Effect Profile
Prior Approvals
Other Research
Common treatments for blood cancers, such as Donor Lymphocyte Infusion (DLI), work by enhancing the body's immune response to target and eliminate cancer cells. DLI involves infusing lymphocytes from a donor into the patient to boost the graft-versus-tumor effect, which helps in reducing the risk of relapse by attacking residual cancer cells. Other treatments, like CAR-T cell therapy, modify a patient's T cells to better recognize and destroy cancer cells. These therapies are crucial for blood cancer patients as they offer targeted approaches to eradicate cancer cells, potentially leading to longer remission periods and improved survival rates.
Optimizing the Outcome of Anti-Myeloma Treatment with Daratumumab.Continuous Complete Remission in Two Patients with Acute Lymphoblastic Leukemia and Severe Fungal Infection Following Short-Term, Dose-Reduced Chemotherapy.

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Logistics

Participation is compensated

You will be compensated for participating in this trial.

Who is running the clinical trial?

National Cancer Institute (NCI)Lead Sponsor
13,917 Previous Clinical Trials
41,014,037 Total Patients Enrolled
Christopher G Kanakry, M.D.Principal InvestigatorNational Cancer Institute (NCI)
4 Previous Clinical Trials
1,036 Total Patients Enrolled

Media Library

Busulfan (Alkylating agents) Clinical Trial Eligibility Overview. Trial Name: NCT05327023 — Phase 1 & 2
Hematopoietic Stem Cell Transplantation for Pediatric Hematological Malignancies Research Study Groups: Phase II Efficacy, Cohort 2 (haploidentical), Donor Arm, Phase I Dose Escalation, Cohort 1 (matched), Phase I Dose Escalation, Cohort 2 (haploidentical), Phase II Efficacy, Cohort 1 (matched)
Hematopoietic Stem Cell Transplantation for Pediatric Hematological Malignancies Clinical Trial 2023: Busulfan Highlights & Side Effects. Trial Name: NCT05327023 — Phase 1 & 2
Busulfan (Alkylating agents) 2023 Treatment Timeline for Medical Study. Trial Name: NCT05327023 — Phase 1 & 2
~253 spots leftby Jul 2028
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