Mycophenolate Mofetil and Abacavir Treatment in HIV Patients With Failed Anti-HIV Treatment
The purpose of this study is to learn how safe and well-tolerated mycophenolate mofetil (MMF) is when given with abacavir (ABC). Another purpose is to see if adding MMF to ABC decreases viral load (amount of HIV in the blood) more than ABC alone.
Many HIV-infected patients who have had heavy exposure to anti-HIV drugs and have experienced treatment failure need new treatment combinations. One promising combination is ABC and MMF as part of a drug combination. Laboratory studies show that MMF helps ABC destroy HIV in the cells and further clinical testing is needed. MMF is not FDA-approved as a treatment for HIV infection but has been approved by FDA to prevent rejection of organ transplants. Doses of MMF tested in this study will be lower than those used to treat people with organ transplants.
|HIV Infections||Drug: Abacavir sulfate Drug: Mycophenolate mofetil||Phase 2|
|Study Design:||Masking: Double-Blind
Primary Purpose: Treatment
|Official Title:||A Phase I/II Study of the Safety, Tolerability, and Antiretroviral Activity of Mycophenolate Mofetil As an Adjunct to Abacavir Therapy in HIV-Infected Subjects With Treatment Failure and Extensive Prior Antiretroviral Exposure|
A large group of heavily drug-exposed HIV-infected individuals with detectable HIV-1 RNA exists as a result of the sequential use and failure of existing antiretroviral agents from each of the 3 antiretroviral drug classes (nucleoside reverse transcriptase inhibitors [NRTIs], protease inhibitors [PIs], and nonnucleoside reverse transcriptase inhibitors [NNRTIs]). Systematic approaches are needed to define "salvage therapy" regimens for this patient group. This trial uses a short-term study to determine the initial safety, pharmacology, and antiviral potency of MMF in augmenting the antiretroviral effect of ABC, which then can be appraised for use as a salvage regimen. After rapid oral absorption, MMF is hydrolyzed to form MPA (mycophenolic acid), the active metabolite. Recent in vitro studies show that MPA concentrations as low as 62.5 nM synergistically increase the antiviral effect of ABC or ddI, or of ABC in combination with ddI, against multinucleoside-resistant HIV strains. These observations suggest that MMF in combination with ABC might play a role in antiretroviral therapy in patients with drug resistance, and continued clinical evaluation of MMF is warranted.
At study entry, patients stop current NRTIs but continue taking PIs and NNRTIs with study treatment. The first 50 patients are stratified by plasma HIV-1 RNA (below 40,000 copies/ml or 40,000 and higher copies/ml) and randomized to either Arm A or Arm B. Arm A receives ABC with MMF placebo; Arm B receives ABC and MMF. Only ABC and MMF are provided by the study. Treatment is received for 4 weeks and patients are evaluated for safety, tolerability, and virologic response. At Week 4, entry genotype results are provided to patients and antiretroviral therapy may then be altered as indicated. Patients are unblinded to study treatment as soon as possible after Week 4 but no later than Week 7. Future opening of Arm C to 125 additional patients is delayed until the first 50 patients have reached Week 4 and an interim review of safety and virologic response is completed. Responders may continue study treatment through Week 24. At 10 clinic visits patients have blood drawn for HIV-1 RNA determinations, CD4 and CD8 cell counts, and genotyping. Patients may participate in pharmacokinetic substudy A5121s.
Please refer to this study by its ClinicalTrials.gov identifier: NCT00021489
|Study Chair:||David Margolis|