Completed

G-CSF and AMD3100 to Mobilize Stem Cells in Healthy Volunteers

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What is being tested

AMD 3100 (Mozobil plerixafor)

+ Granulocyte colony-stimulating factor (G-CSF)
Drug
Who is being recruted

Healthy

From 18 to 60 Years

See all eligibility criteria

How is the trial designed

Treatment Study

Phase 2
Interventional
Study Start: June 2004

See protocol details

Summary

Principal SponsorNational Heart, Lung, and Blood Institute (NHLBI)
Last updated: July 22, 2021
Sourced from a government-validated database.Claim as a partner
Study start date: June 18, 2004Actual date on which the first participant was enrolled.

This 12-day study will test whether the combination of G-CSF (granulocyte-colony stimulating factor) and AMD3100 (Mozobil) is more efficient in mobilizing stem cells for collection than the use of G-CSF alone. Traditionally, the growth factor G-CSF has been given to stem cell donors to mobilize, or push, stem cells out of the bone marrow and into the blood circulation for collection for transplantation. Although a sufficient quantity of cells usually can be collected with G-CSF treatment, some donors do not respond well and may require multiple apheresis procedures (see below) to collect enough cells. Studies indicate that G-CSF used together with a drug called AMD3100 may be more effective in mobilizing stem cells for collection than G-CSF alone. The Food and Drug Administration has approved G-CSF for stem cell mobilization. AMD3100 is a new drug that also mobilizes stem cells in large numbers within a few hours. Normal healthy volunteers between 18 and 60 years of age may be eligible for this study. Peripheral blood progenitor cells (PBPC) are the most popular source of hematopoetic stem cells for allogeneic transplantation because of technical ease of collection and faster engraftment. Traditionally, granulocyte-colony stimulating factor (G-CSF) has been used to procure the peripheral blood stem cell graft. Although regimens using G-CSF usually succeed in collecting adequate numbers of PBPC from healthy donors, 5%-10% of the donors will mobilize stem cells poorly and may require multiple large volume apheresis or bone marrow harvesting. AMD3100 reversibly inhibits CXC- chemokine receptor 4 (CXCR4) binding to stromal cell derived factor (SDF) - 1 and was recently discovered to be an effective agent to mobilize cluster of differentiation 34 (CD34)+ cells into the peripheral blood. In normal volunteers, administering AMD3100 after 4-5 days of G-CSF resulted in a 3-3.5 fold increase in circulating CD34 cells compared to G-CSF alone. Recent data has suggested that the combination of G-CSF and AMD3100 is superior to G-CSF alone for mobilizing hematopoietic progenitor cells in heavily pretreated patients with multiple myeloma or non-Hodgkin's lymphoma undergoing autologous hematopoietic transplantation. Combining AMD3100 with G-CSF could be an effective strategy to improve the yield of PBPC collected from allogeneic donors who mobilize poorly with G-CSF alone. However, the biological impact of AMD3100 in this context on T cells and other cellular populations contained within the allograft that mediate graft versus host disease (GVHD) and graft-versus-leukemia (GVL) effects are unknown. We propose to collect peripheral progenitor cell (PBPC) from healthy volunteers following 5 days of G-CSF (10 mcg/kg/day) and a single dose of AMD3100 (240 mcg/kg subcutaneous given 12 hours before starting apheresis) to study the impact of combining these two mobilizing agents on the immunological properties of the mobilized cells. A single 15 liter apheresis will be conducted on day 5 following the 5th dose of G-CSF. The immunological studies conducted on these mobilized cells will be the same as our parallel study which is investigating the immune properties of PBPCs mobilized with G-CSF or AMD3100 alone. If combining AMD3100 with G-CSF has no negative impact on the immune populations involved in GVHD and graft-vs-leukemia effects, this regimen could be used for allogeneic donors who fail to mobilize sufficient peripheral blood stem cell (PBSC) using G-CSF alone. Primary objective: To determine the cytokine polarization status of cluster of differentiation 4 (CD4+) T-cells collected by apheresis following combination of AMD3100 and G-CSF compared to G-CSF mobilization. Primary endpoint: the ratio of Th1 \[intracellular interferon (IFN-g) +\] versus Th2 \[intracellular interleukin (IL-4+)\] T-cells in the apheresis products collected from individual donors undergoing mobilization with combination of G-CSF and AMD3100 to the ratio in apheresis product collected with G-CSF alone (ratio published in literature). Secondary endpoints: To examine 1) the cellular content and other immune properties of mobilized cells; 2) yields of hematopoietic progenitor cells, immune cells, and other cellular subsets collected by apheresis; and the 3) safety profile of AMD3100.

Official TitlePeripheral Blood Hematopoietic Progenitor Cell Mobilization Using Granulocyte Colony Stimulating Factor (G-CSF) Combined With AMD3100 Mozobil (Plerixafor) in Healthy Volunteers 
Principal SponsorNational Heart, Lung, and Blood Institute (NHLBI)
Last updated: July 22, 2021
Sourced from a government-validated database.Claim as a partner

Protocol

This section provides details of the study plan, including how the study is designed and what the study is measuring.
Design Details
9 patients to be enrolledTotal number of participants that the clinical trial aims to recruit.
Treatment Study
These studies test new ways to treat a disease, condition, or health issue. The goal is to see if a new drug, therapy, or approach works better or has fewer side effects than existing options.

How participants are assigned to different groups/arms
In this clinical study, all participants receive the same treatment. Since there is only one group, there is no need for randomization or assignment to different arms. This type of study is often used to test a new treatment without comparing it to another.

Other Ways to Assign Participants
Randomized allocation: Participants are assigned randomly, like flipping a coin, to ensure fairness and reduce bias.
Non-randomized allocation: Participants are assigned based on specific factors, such as their medical condition or a doctor's decision.

How treatments are given to participants
In this study, all participants receive the same treatment. This approach is often used to evaluate the effects of a single intervention without comparing it to another.

Other Ways to Assign Treatments
Parallel assignment: Participants are split into separate groups, each receiving a different treatment.
Cross-over assignment: Participants switch between treatments during the study.
Factorial assignment: Participants receive different combinations of treatments.
Sequential assignment: Participants receive treatments one after another in a specific order, possibly based on individual responses.
Other assignment: Treatment assignment does not follow a standard or predefined design.

How the effectiveness of the treatment is controlled
In a non placebo-controlled study, no participants receive an inert substance (placebo) to compare outcomes. Instead, all participants receive either the experimental treatment or an alternative treatment (often the Standard of Care). This method allows researchers to compare the effects of the experimental treatment with those of a different active intervention, rather than a placebo.

Other Options
Placebo-Controlled: A placebo is used to compare the effects of the experimental treatment with those of an inert substance, isolating the true treatment effect.

How the interventions assigned to participants is kept confidential
Everyone involved in the study knows which treatment is being given. This is typically used when it's not possible or necessary to hide the treatment details from participants or researchers.

Other Ways to Mask Information
Single-blind: Participants do not know which treatment they are receiving, but researchers do.
Double-blind: Neither participants nor researchers know which treatment is given.
Triple-blind: Participants, researchers, and outcome assessors do not know which treatment is given.
Quadruple-blind: Participants, researchers, outcome assessors, and care providers all do not know which treatment is given.

Eligibility

Researchers look for people who fit a certain description, called eligibility criteria: person's general health condition or prior treatments.
Conditions
Criteria
Any sexBiological sex of participants that are eligible to enroll.
From 18 to 60 YearsRange of ages for which participants are eligible to join.
Healthy volunteers allowedIf individuals who are healthy and do not have the condition being studied can participate.
Conditions
Pathology
Healthy
Criteria

* INCLUSION CRITERIA: Healthy volunteers greater or equal to 18 years old, less than or equal to 60 years. Weight greater than 60 kg (132 pounds) Normal renal function: creatinine less than 1.5 mg/dl l Normal liver function: bilirubin less than1.5mg/dl, transaminases within normal limit Normal blood count: white blood cell (WBC) 3000-10000/mm3, granulocytes greater than 1500/mm3, platelets greater than 150,000/mm3, hemoglobin greater than 12.5g/dl Subject must be eligible for normal blood donation and fit to undergo apheresis procedure (antecubital veins must be adequate for peripheral access during apheresis) Ability to comprehend the investigational nature of the study and provide informed consent EXCLUSION CRITERIA: any of the following Active infection or history of recurrent infection or positive test for syphilis (RPR), hepatitis B and C (HBaSAg, Anti-HCV), HIV and human T- Lymphocytic virus (HTLV-1) History of autoimmune disease such as rheumatoid arthritis, systemic lupus erythematous History of cancer within the past 5 years excluding basal cell or squamous cell carcinoma of the skin History of any hematologic disorders including thromboembolic disease History of cardiac disease such as uncontrolled hypertension, peripheral vascular disease, myocardial infarction, cardiac arrhythmias or related symptoms such as tachycardia, chest pain, shortness of breath which have required medical intervention or treatment or a Framingham coronary disease risk prediction score of greater than 10% 10 year coronary heart disease (CHD) risk History of heavy smoking with underlying pulmonary disease History of cerebrovascular disease, transient ischemic attack, or stroke Diagnosis of sickle cell anemia or sickle cell trait (to be screened by hemoglobin (Hbg) electrophoresis) Pregnant or lactating Severe psychiatric illness: mental deficiency sufficiently severe as to make informed consent impossible. Mobilization with G-CSF within 90 days of protocol enrollment.

Study Plan

Find out more about all the medication administered in this study, their detailed description and what they involve.
Treatment Groups
Study Objectives
One single intervention group 

is designated in this study

This study does not include a placebo group 

Treatment Groups
Group I
Experimental
Participants received subcutaneous injection of G-CSF (10 mcg/kg/day) for 5 days followed by a single subcutaneous injection of AMD3100 (240 mcg/kg) given 12 hours prior to apheresis peripheral blood stem cell collection. Peripheral blood stem cell collection performed on the fifth day of G-CSF administration.
Study Objectives
Primary Objectives

Healthy volunteers will be administered AMD 3100 (Mozobil plerixafor) and granulocyte colony stimulating factor (G-CSF) to determine cytokine polarization status of cluster of differentiation (CD 4) T-cells collected by apheresis. We propose that the combination of single dose AMD 3100 and G-CSF as combined mobilizing agents will improve the peripheral blood progenitor cells mobilization. Successful treatment responders is defined by completing study treatment with cell mobilization and cell collection. Non-responders is defined by having completed the study treatment and having cell mobilization without cell collection.
Secondary Objectives

Average fold change from baseline of mobilized cells that contained immune properties and other cellular content following G-CSF and AMD3100 to mobilize stem cells in healthy volunteers. The mobilized cells are defined as: white blood cells, lymphocytes, polys and monocytes. Polys (also known as segs, segmented neutrophils, neutrophils, granulocytes) are the most numerous of our white blood cells.

Number of participants with increase in yields of hematopoietic progenitor cells, immune cells, and other cellular subsets collected by apheresis following G-CSF and AMD3100 to mobilize stem cells.

Study Centers

These are the hospitals, clinics, or research facilities where the trial is being conducted. You can find the location closest to you and its status.
This study has 1 location
Suspended
National Institutes of Health Clinical Center, 9000 Rockville PikeBethesda, United StatesSee the location
CompletedOne Study Center