T-Reg Cell Kinetics for Patients Receiving Stem Cell Transplant (REGALE)
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Patients have a type of blood cell disorder that is very hard to cure. We are now suggesting a treatment that might help patients live longer without disease than other treatment plans would. This treatment is known as a stem cell transplant. We believe this may help patients as it allows us to give much stronger doses of drugs and radiation to kill the diseased cells than we could give without the transplant. We also think that the healthy cells may help fight any diseased cells left after the transplant.
Stem Cells are special "mother" cells that are found in the bone marrow (the spongy tissue inside bones), although some are also found in the bloodstream (peripheral blood). As they grow, they become either white blood cells which fight infection, red blood cells which carry oxygen and remove waste products from the organs and tissues or platelets, which enable the blood to clot. For the transplant to take place, we will collect these stem cells from a "donor" (a person who agrees to donate these cells) and give them to recipient. Patients do not have a sibling that is a perfect match, so the stem cells will come from a donor who is the best match available. This person may be a close relative or an unrelated person whose stem cells best "matches" the patients, and who agrees to donate stem cells. Before the transplant, two very strong drugs plus total body irradiation will be given to the patient (pre-conditioning). This treatment will kill most of the blood-forming cells in the bone marrow. We will then give the patient the healthy stem cells. Once these healthy stem cells are in the bloodstream they will move to the bone marrow (graft) and begin producing blood cells that will eventually mature into healthy red blood cells, white blood cells and platelets.
This research study will also use CAMPATH-1H as a pre-treatment. CAMPATH-1H is an antibody against certain types of blood cells. CAMPATH-1H is important because it stays active in the body for a long time after infusion, which means it may work longer at preventing GvHD symptoms.
The stem cell transplant described above is considered to be "standard" treatment. We would like to collect additional blood as described below in order to evaluate how the immune system is recovering.
We are asking permission to draw blood from the patient so that we can measure the number of certain blood cells called T regulatory cells. T regulatory cells are special immune cells that can control or regulate the body's immune response. We want to determine whether T regulatory cells are important participants in graft versus host disease (GVHD), infection and relapse. In GVHD, certain cells from the donated marrow or blood (the graft) attack the body of the transplant patient (the host). GVHD can affect many different parts of the body. The skin, eyes, stomach and intestines are affected most often. GVHD can range from mild to life-threatening. We do not know whether T regulatory cells can modify these conditions. We want to measure these T regulatory cells and learn if these cells do influence these conditions. If we learn that T regulatory cells do affect these conditions, then it may be possible to modify these cells for the benefit of transplant patients.
Condition | Intervention |
---|---|
Leukemia Hodgkin Lymphoma Non Hodgkin Lymphoma Myeloproliferative Disorders |
Drug: Ara C Drug: Cyclophosphamide Drug: MESNA Procedure: TBI Biological: Campath-1h Procedure: Stem Cell Infusion Drug: Tacrolimus Drug: Methotrexate |
Study Type: | Interventional |
Study Design: | Intervention Model: Single Group Assignment Masking: Open Label Primary Purpose: Treatment |
Official Title: | T-Regulatory Cell Kinetics for Patients Receiving Alemtuzamb and Undergoing Stem Cell Transplantation From HLA Mismatched-Related, or HLA Matched, or One Antigen Mismatched-Unrelated Donors |
- To define the biologic recovery and behavior of T reg cells for pts undergoing SCT as a prelude to the design of clinical trials in which perturbation to T reg cells will be investigated as a means to reduce relapse, GVHD and infection. [ Time Frame: 2 years ] [ Designated as safety issue: No ]
- To determine that the administration of Campath 1H as part of conditioning therapy to patients undergoing stem cell transplantation from mismatched related donors or from matched unrelated donors permits T regulatory cell recovery. [ Time Frame: 2 years ] [ Designated as safety issue: Yes ]
Estimated Enrollment: | 40 |
Study Start Date: | October 2007 |
Estimated Study Completion Date: | December 2015 |
Estimated Primary Completion Date: | December 2015 (Final data collection date for primary outcome measure) |
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Drug: Ara C
To participate in this transplant, the patient will need to have a central line.
Before the transplant we will test the blood for viruses which can cause problems after the transplant. These viruses include Hepatitis B, cytomegalovirus and HIV. If the patient is positive for the AIDS virus, they will not be able to undertake the transplant.
Standard therapy: The patient will be given 6 doses of chemotherapy with a drug called Ara C in high doses (every 12 hours) which will begin 8 days before the stem cell transplant. Then, another chemotherapy drug called cyclophosphamide will be given in high doses by vein for two days on the 7th and 6th days before the transplant. A drug called MESNA will be given with cyclophosphamide. MESNA is used to decrease the side effects caused by cyclophosphamide. The patient will also receive an antibody called Campath (each day for 4 days before the transplant) to help destroy the immune system so that there is less host resistance to the growth of the donor cells. Radiation treatment will be given to the entire body on each day for 4 days before transplant. This will be given 2 times a day for 4 days. The chemotherapy and radiation treatment will last 8 days. If the patient has a diagnosis of T-cell Lymphoma, they will not be given the Ara-C.
Extra bone marrow tests may be recommended by the physician to check on the patients condition, especially if the marrow is slow to grow.
The day after the radiation treatment is completed; the patient will receive the healthy stem cells by vein. Once in the bloodstream, these stem cells will go to the bone marrow and should begin to grow.
In prevention of GvHD, the patient will also receive medicine called FK506 as well as low dose methotrexate. The FK506 will be given intravenously initially starting 2 days before the transplant and later by mouth (when they are able to take oral medications). This drug will be given each day for several weeks. Four doses of low dose methotrexate will be given intravenously. The methotrexate will be given on the day after the transplant, 3, 6 and 11 days after the transplant. If the GVHD cannot be controlled with FK506, other medicines may need to be given. The doctor will describe these medicines at that time.
Blood samples for research: To study how these cells are working in the patients system, blood samples will be taken each month for six months, at nine months, at one year, 2 years and 3 years following transplant. Approximately 6-8 teaspoons of blood will be collected each time. The total blood drawn for this study over three years should not exceed 1 and 3/4 cups. This amount is considered safe in adults. The amount of blood collected will be decreased in children and/or in patients where this amount of blood collection would not be appropriate.
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Ages Eligible for Study: | up to 64 Years |
Genders Eligible for Study: | Both |
Accepts Healthy Volunteers: | No |
INCLUSION CRITERIA:
- Patients with acute or chronic leukemia or advanced Hodgkin or non Hodgkin lymphoma or myelodysplastic/myeloproliferative disease who are unlikely to be cured by standard chemotherapy treatments. This includes patients who have relapsed after standard chemotherapy treatments and patients in first remission with unfavorable prognostic features.
- Using the standard 6 HLA antigen profile (HLA class I, A and B, and HLA class II, DRB1) a patient must have either a one HLA antigen mismatched related donor or an HLA matched or one antigen mismatched unrelated donor.
EXCLUSION CRITERIA:
- Patients with a life expectancy (less than or equal to 6 weeks) limited by disease other than leukemia.
- Patients with symptomatic cardiac failure unrelieved by medical therapy or evidence of significant cardiac dysfunction by echocardiogram (shortening fraction <20%).
- Patients with severe renal disease (i.e., creatinine greater than 3 times normal for age).
- Patients with pre-existing severe restrictive pulmonary disease (FVC less than 40% of predicted).
- Patients with severe hepatic disease (direct bilirubin greater than 3 mg/dl or AST greater than 500 IU/L).
- Patients with severe personality disorder or mental illness.
- Patients with severe infection that in the estimation of the principal investigator prohibits the use of ablative chemotherapy.
- Patients who are documented HIV positive.
- Patients with a Karnofsky performance score <70% or Lansky score <50%.
NOTE: Patients who would be excluded from treatment on this protocol strictly for laboratory abnormalities can be included at the principal investigator's discretion after consultation with the members of the SCT Policy and Procedures Committee.
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United States, Texas | |
Texas Children's Hospital | Recruiting |
Houston, Texas, United States, 77030 | |
Contact: Robert Krance, MD 832-824-4661 rakrance@txch.org | |
Contact: Marlen Dinu 832-824-4881 mxdinu@txch.org | |
Sub-Investigator: Bambi J Grilley | |
Sub-Investigator: Malcolm K Brenner, MD | |
Sub-Investigator: Helen E Heslop, MD | |
Sub-Investigator: Stephen M Gottschalk, MD | |
Sub-Investigator: Katherine Leung, MD | |
Sub-Investigator: Catherine M Bollard, MD | |
Sub-Investigator: Alana A Kennedy-Nasser, MD | |
Sub-Investigator: Caridad M Martinez, MD | |
Sub-Investigator: Yen Nguyen, MD | |
Baylor College of Medicine | Recruiting |
Houston, Texas, United States, 77030 | |
Contact: Robert A Krance, MD 832-824-4661 rakrance@txch.org | |
Contact: Marlen Dinu 832-824-4881 mxdinu@txch.org | |
Sub-Investigator: Malcolm K Brenner, MD | |
Sub-Investigator: Helen E Heslop, MD | |
Sub-Investigator: George Carrum, MD | |
Sub-Investigator: Caridad A Martinez, MD | |
Sub-Investigator: Bambi J Grilley | |
Sub-Investigator: Stephen M Gottschalk, MD | |
Sub-Investigator: Kathryn Suet Wa Leung, MD | |
Sub-Investigator: Alana A Kennedy-Nasser, MD | |
Principal Investigator: Robert A Krance, MD | |
Sub-Investigator: Catherine M Bollard, MD | |
Sub-Investigator: Rammurti T Kamble, MD |
Principal Investigator: | Robert Krance, MD | Baylor College of Medicine |
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No publications provided by Baylor College of Medicine
Additional publications automatically indexed to this study by ClinicalTrials.gov Identifier (NCT Number):
Responsible Party: | Robert Krance, Principal Investigator, Baylor College of Medicine |
ClinicalTrials.gov Identifier: | NCT00578539 History of Changes |
Obsolete Identifiers: | NCT00647010 |
Other Study ID Numbers: | 21079-REGALE |
Study First Received: | December 19, 2007 |
Last Updated: | April 10, 2012 |
Health Authority: | United States: Institutional Review Board |
Keywords provided by Baylor College of Medicine:
Stem Cell Transplantation |
Additional relevant MeSH terms:
Hodgkin Disease Leukemia Lymphoma Lymphoma, Non-Hodgkin Myeloproliferative Disorders Neoplasms by Histologic Type Neoplasms Lymphoproliferative Disorders Lymphatic Diseases Immunoproliferative Disorders Immune System Diseases Bone Marrow Diseases Hematologic Diseases Mesna Cyclophosphamide |
Cytarabine Methotrexate Tacrolimus Campath 1G Alemtuzumab Protective Agents Physiological Effects of Drugs Pharmacologic Actions Immunosuppressive Agents Immunologic Factors Antirheumatic Agents Therapeutic Uses Antineoplastic Agents, Alkylating Alkylating Agents Molecular Mechanisms of Pharmacological Action |
ClinicalTrials.gov processed this record on October 17, 2012