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Trial record 2 of 3 for:    windreich

Pharmacokinetics-based Mycophenolate Mofetil Dosing for GVHD Prevention

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ClinicalTrials.gov Identifier: NCT01487577
Recruitment Status : Completed
First Posted : December 7, 2011
Results First Posted : June 21, 2016
Last Update Posted : June 21, 2016
Information provided by (Responsible Party):
Randy Windreich, University of Pittsburgh

November 23, 2011
December 7, 2011
February 24, 2016
June 21, 2016
June 21, 2016
June 2010
December 2014   (Final data collection date for primary outcome measure)
  • Number of Participants With Grade ≥3 Toxicities Scored According to the CTCAE Version 4.0. [ Time Frame: 100 days ]
  • Number of Participants With Acute Grade II-IV GVHD, Acute Grade III-IV GVHD, and Chronic GVHD. [ Time Frame: 1 year ]
    Acute GVHD will be graded according to the Modified Glucksberg Staging Criteria. Chronic GVHD will be graded according to NIH Chronic GVHD Consensus Guidelines.
  • Regimen-related Toxicity - Grade ≥3 toxicities scored according to the CTCAE Version 4.0. [ Time Frame: 100 days ]
  • Cumulative incidence of acute grade II-IV GVHD, acute grade III-IV GVHD, and chronic GVHD. [ Time Frame: 1 year ]
Complete list of historical versions of study NCT01487577 on ClinicalTrials.gov Archive Site
  • Number of Participants With Neutrophil and Platelet Engraftment. [ Time Frame: 100 days ]
    Neutrophil and platelet engraftment definitions as defined by the CIBMTR Data Management Manual.
  • Number of Participants Who Experienced Relapse. [ Time Frame: 1 year ]
  • Number of Participants Who Experienced Nonrelapse Mortality. [ Time Frame: 1 year ]
  • Number of Participants in Overall Survival. [ Time Frame: 1 year ]
  • Pharmacokinetic Analysis of MMF AUC to Evaluate MMF Dose Relationships to Drug Exposure. [ Time Frame: 100 days ]
    Pharmacokinetic analysis includes, but is not limited to, area under the plasma concentration versus time curve (AUC).
  • Pharmacokinetic Analysis of MMF Clearance to Evaluate MMF Dose Relationships to Drug Exposure. [ Time Frame: 100 days ]
    Pharmacokinetic analysis includes, but is not limited to, clearance.
  • Pharmacokinetic Analysis of MMF Steady State Concentration to Evaluate MMF Dose Relationships to Drug Exposure. [ Time Frame: 100 days ]
    Pharmacokinetic analysis includes, but is not limited to, steady-state concentrations.
  • Incidence of neutrophil and platelet engraftment according to the CIBMTR Data Management Manual. [ Time Frame: 100 days ]
  • Incidence of relapse. [ Time Frame: 1 year ]
  • Incidence of nonrelapse mortality. [ Time Frame: 1 year ]
  • Incidence of overall survival. [ Time Frame: 1 year ]
  • Pharmacokinetic analysis of MMF to evaluate MMF dose relationships to drug exposure. [ Time Frame: 100 days ]
    Pharmacokinetic analysis includes, but is not limited to, area under the plasma concentration versus time curve (AUC), clearance, and steady-state concentrations.
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Pharmacokinetics-based Mycophenolate Mofetil Dosing for GVHD Prevention
A Pilot Study of Pharmacokinetics-based Mycophenolate Mofetil Dosing for Graft-Versus-Host-Disease Prophylaxis in Pediatric Blood and Marrow Transplantation
Bone marrow transplantation (BMT) is used to successfully treat high-risk forms of leukemia, lymphoma, and other childhood cancers that were once considered incurable. A major barrier to the application of this life-saving treatment is acute graft-versus-host disease (GVHD) which develops in approximately 30-80% of patients and is a leading cause of death from transplant complications. Current GVHD prevention methods are not very efficacious and lead to unacceptable side effects. Mycophenolate mofetil (MMF), an anti-rejection medication used in solid organ transplants, has shown great promise in BMT recipients. The effectiveness of MMF depends on blood levels of mycophenolic acid (MPA, the active form of MMF). Different patients have been found to have different blood levels of MPA when they are given the same dose of MMF. The purpose of this study is to study a novel method of giving MMF based on its metabolism (pharmacokinetics) to achieve desired blood levels of MPA for prevention of GVHD. Non-invasive ways of monitoring the drug exposure will also be studied. The ultimate goal of this study is to improve approaches to GVHD prevention and improve outcomes of BMT in children.

Graft-versus-host disease (GVHD) remains a major barrier to the success of allogeneic blood and marrow transplant (BMT) therapy. Acute GVHD is seen in 30-80% of patients and once established, often responds poorly to therapy and is associated with chronic disease and increased risk of death. Although combination of methotrexate (MTX) and a calcineurin inhibitor has been the "standard of care" for more than a quarter of a century, there is little consensus on the most effective and least toxic approach to GVHD prevention. MTX use is associated with painful mucositis, delay in engraftment and potential pulmonary toxicity. For cord blood transplants, commonly, a calcineurin inhibitor is used with corticosteroids and antithymocyte globulin. Steroid therapy is frequently complicated by high rates of infection, hyperglycemia and hypertension.

Mycophenolate mofetil (MMF), whose metabolite mycophenolic acid (MPA) inhibits proliferation of lymphocytes, is approved for prevention of organ transplant rejection. MMF in combination with CsA is widely used for GVHD prevention in patients receiving reduced-intensity conditioning BMT. It has also been successfully used in primary and salvage therapy of acute GVHD. In myeloablative transplants, while the GVHD outcomes appear comparable, this regimen appears to have superior toxicity profile in comparison to CsA and MTX with faster hematopoietic engraftment and reduced severity and duration of mucositis.

One challenge with MMF use in BMT recipients is a significantly lower MPA exposure in the immediate post-conditioning period when compared to organ transplant recipients. This has been shown in a number of pharmacokinetics studies including our preliminary data on pediatric myeloablative transplants. Low total and unbound MPA trough concentrations are associated with higher rates of acute GVHD and graft rejection, and lower response rates in treatment of acute GVHD. There is also poor correlation between MPA trough concentration and area under the concentration curve (AUC). While most previous studies have used fixed MMF dosing, one recent study in adults has shown feasibility of AUC-based individualized MMF dosing.

This protocol is based on the premise that optimization of MPA exposure in the immediate post-transplant phase will lead to better acute GVHD prevention. It will study an AUC-based targeting of MMF in pediatric patients undergoing myeloablative allogeneic BMT. We propose a novel continuous infusion method for MMF administration to achieve total MPA steady state concentration. Salient findings emerging from this study will be examined and in replicate cohorts of pediatric and adult patients undergoing allo-BMT.

Phase 2
Intervention Model: Single Group Assignment
Masking: None (Open Label)
Primary Purpose: Treatment
  • Allogeneic Blood and Marrow Transplantation (BMT)
  • Graft Versus Host Disease
Drug: Mycophenolate mofetil
Based on individual pharmacokinetics data, mycophenolate mofetil will be administered by continuous infusion to target a desired AUC exposure
Other Names:
  • Cellcept
  • MMF
Experimental: Mycophenolate mofetil
Pharmacokinetics-based targeting of mycophenolate mofetil
Intervention: Drug: Mycophenolate mofetil
Not Provided

*   Includes publications given by the data provider as well as publications identified by ClinicalTrials.gov Identifier (NCT Number) in Medline.
January 2016
December 2014   (Final data collection date for primary outcome measure)

Inclusion Criteria:

  • Patients must be between 6 months and 21 years of age.
  • Recipients of an allogeneic blood and marrow transplant (BMT).
  • Stem cell sources should be bone marrow or umbilical cord blood.
  • Bone marrow or cord blood unit: Sibling should be HLA matched at A, B and DRB1 loci. Unrelated cord blood unit should be at a minimum 4/6 matched at allele level on HLA A, B and DRB1 loci. Unrelated donor should be HLA allele level matched at A, B, C and DRB1 loci.
  • Minimum prefreezing nucleated cell dose for cord blood units: 3x10^7/kg for malignant diseases and 5x10^7/kg for nonmalignant diseases.
  • Conditioning regimen must be myeloablative in intensity. Examples include but are not limited to Cy/TBI, BuCy 200, etc.
  • Patients ≥ 16 years old must have a Karnofsky score ≥ 70%, and patients < 16 years old must have a Lansky score ≥ 70%.
  • Renal: Creatinine clearance or radioisotope GFR ≥ 70 mL/min/1.73 m2.
  • Hepatic: Total bilirubin ≤ 2.5 mg/dL unless the increase in bilirubin is attributable to Gilbert's syndrome; and SGOT (AST), SGPT (ALT), and Alkaline Phosphatase < 5 x upper limit of normal (ULN) for age.
  • Cardiac: Left ventricular ejection fraction at rest > 40%, or shortening fraction > 26%, by echocardiogram or radionuclide scan.
  • Pulmonary: FEV1, FVC, and DLCO (diffusion capacity) > 50% of predicted (corrected for hemoglobin); if unable to perform pulmonary function tests, then O2 saturation > 92% of room air.

Exclusion Criteria:

  • Patients with a known hypersensitivity to MMF.
  • Prior autologous or allogeneic BMT < 12 months prior to enrollment.
  • Mismatched related donor.
  • Mismatched unrelated marrow donor.
  • Peripheral blood stem cell source.
  • Reduced intensity conditioning.
  • Uncontrolled bacterial, viral, fungal or other infection.
  • Evidence of HIV infection or HIV positive serology.
  • Requirement of supplemental oxygen.
  • Patients who are pregnant (B-hCG positive) or breastfeeding. All females of 11 years of age or older and/or who have begun menstruating will be screened for hCG by either urinalysis or a blood sample in order to screen for pregnancy status, as per institutional BMT policy.
Sexes Eligible for Study: All
6 Months to 21 Years   (Child, Adult)
Contact information is only displayed when the study is recruiting subjects
United States
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Randy Windreich, University of Pittsburgh
University of Pittsburgh
Not Provided
Principal Investigator: Randy M Windreich, MD Children's Hospital of Pittsburgh of UPMC
University of Pittsburgh
May 2016

ICMJE     Data element required by the International Committee of Medical Journal Editors and the World Health Organization ICTRP