Pharmacokinetic and Pharmacodynamic Comparison of Enteric-Coated Mycophenolate Sodium and Mycophenolate Mofetil in Maintenance Renal Transplant Patients

The aim of this single-center crossover substudy was to assess pharmacokinetics and pharmacodynamics [inosine 5'-monophosphate dehydrogenase (IMPDH) activity] of enteric-coated mycophenolate sodium (EC-MPS) and mycophenolate mofetil (MMF) at steady-state conditions. Stable maintenance renal transplant patients on 1 g MMF b.i.d. participating in a double-blind, multicenter study, were randomized to receive EC-MPS (720 mg b.i.d.) or continue receiving MMF (1000 mg b.i.d.) for 12 months. Thereafter, all patients (n = 18) received 720 mg EC-MPS b.i.d. Area under the plasma mycophenolic acid (MPA) concentration-time curve with EC-MPS (57.4 +/- 15.0 microg h/mL) fulfilled bioequivalence criteria (geometric mean 0.98 (90% CI: 0.87-1.11) compared to MMF (58.4 +/- 14.1 microg h/mL). Consistent with the delayed release characteristics of EC-MPS, peak MPA concentration (geometric mean 0.89; 90% CI: 0.70-1.13) occurred approximately 0.5 h later (p < 0.05) and predose MPA levels (geometric mean 2.10; 90% CI: 1.51-2.91) were higher and more variable, not fulfilling bioequivalence criteria. IMPDH activity inversely followed MPA concentrations and was inhibited to a similar degree (approximately 85%) by both formulations. The calculated value for 50% IMPDH inhibition was identical for both drugs. In conclusion, equimolar doses of EC-MPS and MMF produce equivalent MPA exposure, while the delayed release formulation of EC-MPS exhibits more variable predose levels and T(max). Overall, IMPDH activity reflected MPA pharmacokinetics.     

Pharmacokinetics and variability of mycophenolic acid from enteric-coated mycophenolate sodium compared with mycophenolate mofetil in de novo heart transplant recipients

Sequential pharmacokinetic assessments were performed at five centers within the context of a multicenter, single-blind, randomized clinical trial comparing the efficacy and safety of enteric-coated mycophenolate sodium (EC-MPS, myfortic) and mycophenolate mofetil (MMF, CellCept) in de novo heart transplant recipients. Patients were randomized to either EC-MPS 1080 mg bid or MMF 1500 mg bid, as part of a triple immunosuppressive therapy including cyclosporine microemulsion. Steady-state pharmacokinetic profiles of mycophenolic acid (MPA) and its inactive phenolic glucuronide (MPAG) were assessed at weeks 2, 12, and 52. Pharmacokinetic parameters were evaluated in 32 patients (17 on EC-MPS and 15 on MMF). Dose-normalized peak (C(max,ss)) and area under the curve (AUC(tau,ss)) of MPA and MPAG increased between week 2 and week 12 assessments for both treatments. Comparisons between EC-MPS and MMF showed no statistically significant differences in MPA and MPAG AUC(tau,ss), C(max,ss), and trough (C(min,ss)) values (p-values ranged from 0.225 to 0.990). Consistent with the delayed release characteristics of EC-MPS, C(max,ss) occurred approximately one hour later compared with MMF. Inter-subject coefficients of variation (%CV) for MPA pharmacokinetic parameters of both EC-MPS and MMF were high (37-72% for AUC(tau,ss) at weeks 2 and 12). Also within patients, the pharmacokinetics of MPA varied considerably. Specifically, intra-subject %CVs for MPA AUC(tau,ss), C(max,ss), and C(min,ss) were 28%, 63%, and 34% with EC-MPS and 54%, 139%, and 41% with MMF respectively. These results indicate that a dose of EC-MPS 1080 mg bid in combination with cyclosporine provides adequate systemic MPA exposure in de novo heart transplant patients, comparable with MMF 1500 mg bid. Overall, there is a large inter- and intra-subject variability in MPA pharmacokinetic parameters with both treatments.     

Mycophenolic acid metabolite profile in renal transplant patients receiving enteric-coated mycophenolate sodium or mycophenolate mofetil

Mycophenolate mofetil (MMF), a prodrug of mycophenolic acid (MPA), is an effective immunosuppressive treatment in renal transplant recipients but is known to have gastrointestinal side effects. Enteric-coated mycophenolate sodium (EC-MPS; myfortic) is a new formulation for delivering MPA. This open-label, two-period, cross-over study was carried out to characterize the time course of MPA and its metabolites, mycophenolic acid glucuronide (MPAG) and acyl mycophenolic acid glucuronide (AcMPAG) in stable renal transplant patients (n = 40) after 28-day chronic dosing with EC-MPS (720 mg bid) or MMF (1000 mg bid). The relative abundance and exposure of all three compounds was also assessed. EC-MPS demonstrated the typical pharmacokinetic profile of an enteric-coated formulation with a delayed release of MPA compared with MMF (Tmax 2.5 versus 1.0 hours, respectively). Consistent with a similar disposition of MPA, both EC-MPS and MMF treatments resulted in the same ratio of MPAG to MPA exposure, 23:1. Furthermore, comparison of the AUC of MPAG and AcMPAG for both treatments indicated that steady state MPAG exposure was 75 to 90 times that of AcMPAG, confirming MPAG as the predominant metabolite of MPA. AcMPAG has been identified as a possible active metabolite of MPA; the present study indicates that AcMPAG may contribute around 14% of the exposure to active drug after administration of MPA. Both EC-MPS and MMF treatments were well tolerated over the 1-month period of chronic treatment. In summary, consistent with its enteric-coated design, EC-MPS delays delivery of MPA, but results in similar exposure to that provided by MMF.     

Conversion from mycophenolate mofetil to enteric-coated mycophenolate sodium in maintenance renal transplant recipients receiving tacrolimus: clinical, pharmacokinetic, and pharmacodynamic outcomes

BACKGROUND: Mycophenolic acid (MPA) pharmacokinetics using the mycophenolate mofetil (MMF) formulation are known to differ between patients receiving tacrolimus or cyclosporine, but only limited data exist concerning concomitant use of tacrolimus and enteric-coated mycophenolate sodium (EC-MPS). METHODS: In this six-month, multicenter, open-label, single-arm trial, 63 maintenance renal transplant patients receiving tacrolimus were converted from mycophenolate mofetil (MMF) to EC-MPS. RESULTS: MPA concentration-time profiles in 21 patients showed that MPA exposure was similar with MMF or EC-MPS (mean area under the curve 39.9+/-11.6 microg x h/mL versus 43.7+/-17.4 microg x h/mL at day 14 post-conversion). Median time to peak concentration was 0.5 hr with MMF and 1.5 hr with EC-MPS. Inosine monophosphate dehydrogenase (IMPDH) activity was almost identical: area under the enzyme activity time curve (AEC) was 124.2+/-32.0 nmol x h/mg prot/h with MMF and 130.3+/-36.6 nmol x h/mg prot/h with EC-MPS at 14 days post-conversion; average daytime IMPDH activity was 10.3+/-2.7 nmol/h/mg protein and 10.9+/-2.7 nmol/h/mg protein, respectively. Maximal daytime inhibition of IMPDH activity was 67% with MMF and 62% with EC-MPS at day 14. One patient (1.6%) experienced mild biopsy-proven acute rejection. No graft losses or deaths occurred. Renal function remained stable (mean calculated creatinine clearance 70.6+/-26.8 mL/min with MMF and 68.8+/-25.4 mL/min six months post-conversion). Adverse events or infections with a suspected relation to EC-MPS occurred in 12 patients (19%). Four patients discontinued EC-MPS due to adverse events or infections. CONCLUSIONS: MMF and EC-MPS are associated with similar MPA exposure and equivalent pharmacodynamic effect. Conversion of tacrolimus-treated maintenance renal transplant patients from MMF to EC-MPS is safe and well-tolerated and does not compromise therapeutic efficacy.     

Enteric-coated mycophenolate-sodium in heart transplantation: efficacy, safety, and pharmacokinetic compared with mycophenolate mofetil

Mycophenolic acid (MPA) is an effective immunosuppressive treatment for renal transplant recipients, but its effective use and best practice are not established in cardiac transplantation. This multicenter, single-blind, randomized, parallel group clinical trial prospectively evaluated the therapeutic equivalence of enteric-coated mycophenolate-sodium (EC-MPS) versus mycophenolate mofetil (MMF) in combination with cyclosporine (CyA) and steroids as determined by the primary objective of treatment efficacy during the first 6 months of treatment in 154 de novo heart transplant recipients. Both groups received equivalent doses of MPA, either 720 mg b.i.d EC-MPS or 1000 mg b.i.d MMF. EC-MPS showed a comparable efficacy and safety profile compared with MMF with significantly less dose reduction. Treatment failure occurred in 57.7% and 60.5% with EC-MPS and MMF, respectively, EC-MPS was therapeutically equivalent to MMF in cardiac transplantation.     

Better mycophenolic acid 12-hour trough level after enteric-coated mycophenolate sodium in patients with gastrointestinal intolerance to mycophenolate mofetil

INTRODUCTION: Enteric-coated mycophenolate sodium (EC-MPS) is the enteric-coated salt form of mycophenolic acid (MPA), the active component of the prodrug mycophenolate mofetil. EC-MPS was developed to reduce the upper-gastrointestinal (GI) effects of mycophenolate mofetil. There are no studies available comparing trough plasma levels in patients with GI intolerance to MMF when they are converted to EC-MPS. AIM: To compare the GI tolerance and the MPA levels in patients previously treated with MMF in whom this drug was replaced by EC-MPS. MATERIALS AND METHODS: A prospective study was conducted in 133 renal transplant patients after conversion from MMF to EC-MPS (median time posttransplant 42 months, range 1 to 240 months). The causes for EC-MPS switching were GI intolerance to MMF (51.9%; group A), low trough plasma levels with MMF (29.3%; group B), and others (18.8%; group C). These patients were converted to equipotent doses of EC-MPS. RESULTS: The trough plasma MPA levels increased from 1.5 +/- 1.1 microg/mL at baseline to 2.5 +/- 2.0 microg/mL at 1 month postconversion despite the equipotent EC-MPS doses not being increased. These higher plasma levels were maintained throughout the study. In group A, this increase was from 1.8 +/- 1.0 to 2.7 +/- 2.1 microg/mL (P = .01) and in group B from 0.8 +/- 0.4 to 2.4 +/- 1.4 microg/mL (P < .001). The doses and levels of calcineurin inhibitor decreased from baseline. Creatinine clearance improved from 56.5 +/- 24.7 mg/dL at baseline to 61.9 +/- 28.6 at 6 months postconversion (P = .02). There was a statistically significant increase in hemoglobin levels. In group A, the GI tolerance improved in 78% of the patients. CONCLUSIONS: At equipotent doses, patients converted to EC-MPS have higher and more adequate levels of MPA. At 6 months postconversion, we observed an improvement of the renal function, probably due to a reduction of calcineurin inhibitor drugs. However, the possibility that a better immunosuppressive efficacy as demonstrated by more suitable trough plasma levels may have been a contributing factor cannot be discarded.     

Randomized crossover study to assess the inter‐ and intrasubject variability of morning mycophenolic acid concentrations from enteric‐coated mycophenolate sodium and mycophenolate mofetil in stable renal transplant recipients

Tedesco‐Silva H, Felipe CR, Park SI, Pinheiro‐Machado PG, Garcia R, Slade A, Schmouder R, Medina‐Pestana JO. Randomized crossover study to assess the inter‐ and intrasubject variability of morning mycophenolic acid concentrations from enteric‐coated mycophenolate sodium and mycophenolate mofetil in stable renal transplant recipients.
Clin Transplant 2010: 24: E116–E123.
© 2009 John Wiley & Sons A/S. Abstract: The delayed release of mycophenolic acid (MPA) from enteric‐coated mycophenolate sodium (EC‐MPS, myfortic^®) may have an impact on the variability of MPA trough (C_{0 h}) levels. A randomized, two‐period crossover study was performed in 24 maintenance renal transplants to evaluate the inter‐ and intrasubject variability of MPA predose levels from EC‐MPS and mycophenolate mofetil (MMF, CellCept^®), both in combination with cyclosporine. Patients received EC‐MPS (720 mg b.i.d.) and MMF (1000 mg b.i.d.) for a period of 21 d each. MPA plasma levels were measured over the final seven consecutive days at ?1, 0, 1, 2, and 3 h after the morning MPA dose. Intersubject coefficients of variation (%CV) for MPA troughs were 47.5% (95% CI, 34.1–80.3) and 54.4% (40.0–86.8) for EC‐MPS and MMF, respectively; intrasubject %CVs were 62.7% (55.1–72.9) and 42.8% (37.9–49.2). High MPA C_{0 h} levels >10 μg/mL were rarely observed with both EC‐MPS (1.8%) and MMF (0.6%). Mean MPA area under the curve (AUC)_{0–3 h} was comparable between treatments, while MPA C_{0 h} was on average 46% higher with EC‐MPS. In conclusion, predose MPA trough level monitoring appears of limited value during EC‐MPS and MMF therapy given the large intrasubject variability in MPA C_{0 h} levels with both treatments.     

Pharmacokinetics of enteric-coated mycophenolate sodium in stable liver transplant recipients

INTRODUCTION: Mycophenolate mofetil (MMF) is one of the major immunosuppressive agents used in liver transplantation recipients. In an attempt to mitigate one of the most common side effects of MMF (gastrointestinal symptoms), enteric-coated mycophenolate sodium (EC-MPS) was developed. In this study, we report the pharmacokinetic profile of EC-MPS in stable liver transplantation recipients administered a single 720 mg dose. METHODS: Liver transplantation recipients more than one yr after transplantation were administered a single dose of 720 mg EC-MPS after which blood levels of MPA were measured at frequent intervals using a specific and validated LC-MS/MS assay. RESULTS: The characteristics of the 21 patients studied were: mean age was 55.9 yr, 13 were female, eight had hepatitis C, and 14 were on tacrolimus. The mean apparent half-life of MPA was 5.3 +/- 4.3 h, (1.0-15.7). Mean t(max) was 2.4 +/- 1.1 h (1.0-5.0). The mean area-under-curve was 45.3 +/- 23.1 microg-h/mL (17.3-90.0). Trough level concentrations (C(12 h)) showed large inter-individual variability (0-9.2 microg/mL). There was no difference in any of the pharmacokinetic parameters relative to: gender, HCV, administration of tacrolimus vs. cyclosporine or type of biliary anastomosis. CONCLUSIONS: There is a wide variation in pharmacokinetic parameters in stable, long-term liver transplantation recipients receiving a single dose of EC-MPS. These data suggest that therapeutic drug monitoring with EC-MPS may have limited utility in liver transplantation recipients.     

Effect of conversion from mycophenolate mofetil to enteric-coated mycophenolate sodium on maximum tolerated dose and gastrointestinal symptoms following kidney transplantation

Despite the potential tolerability advantage of enteric-coated mycophenolate sodium (EC-MPS), no prospective, randomized trial has evaluated whether conversion from mycophenolate mofetil (MMF) to EC-MPS permits mycophenolic acid dose to be increased or gastrointestinal side-effects to be ameliorated. In a randomized, multicenter, open-label trial, kidney transplant recipients experiencing gastrointestinal side-effects either remained on MMF or switched to an equimolar dose of EC-MPS, adjusted 2 weeks subsequently to target the highest tolerated dose up to 1440 mg/day (EC-MPS) or 2000 mg/day (MMF). Patients were followed up to 12 weeks postrandomization. One hundred and thirty-four patients were randomized. The primary efficacy endpoint, the proportion of patients receiving a higher mycophenolic acid (MPA) dose at week 12 than at randomization, was significantly greater in the EC-MPS arm (32/68, 47.1%) than the MMF arm (10/61, 16.4%; P  < 0.001). At the final visit, 50.0% (34/68) of EC-MPS patients were receiving the maximum recommended dose versus 26.2% (16/61) of MMF patients ( P  = 0.007). Kidney transplant patients receiving reduced-dose MMF because of gastrointestinal side-effects can tolerate a significant increase in MPA dose after conversion to EC-MPS. Patient-reported gastrointestinal outcomes with higher doses of EC-MPS remained at least as good as in MMF-treated controls.     

Safety assessment of the conversion from mycophenolate mofetil to enteric-coated mycophenolate sodium in stable renal transplant recipients

The immunosuppressant mycophenolate mofetil (MMF; CellCept) has greatly improved transplant recipients' clinical outcomes, but its efficacy may be limited by dose adjustments due to adverse events (AEs). An enteric-coated formulation of mycophenolate sodium (EC-MPS; myfortic), designed to improve gastrointestinal tolerability is now available. This Latin-American, prospective, multicenter, open-label, 6-month trial assessed the safety and tolerability of converting renal transplant recipients from MMF to EC-MPS. In total, 237 renal transplant recipients (stable > or = 3 months' posttransplant) receiving MMF (< or =1000 mg b.i.d.) were enrolled. Adults (n = 218) were converted to EC-MPS 720 mg b.i.d. (equimolar to MMF 1000 mg b.i.d.) even if they were initially receiving <1000 mg MMF b.i.d. (ie, 47 adults received a higher than equimolar dose of EC-MPS). Children (n = 19) were converted to EC-MPS 450 or 432 mg/m2 b.i.d. Patients also received cyclosporine microemulsion (Neoral) and corticosteroids. There were three acute rejections and no graft failures. The incidence of AEs was 59.9% (in those receiving a higher than equimolar EC-MPS dose it was 57.4%). In all, 22% of patients had gastrointestinal AEs, 37% had infections, and 4.8% had hematological AEs. Only 24 patients (10%) had an AE-related dose reduction. Seven of these patients had received higher than equimolar doses of EC-MPS. Patients can be safely converted from different doses of MMF to a standard dose of EC-MPS. The requirement for EC-MPS dose reduction to manage AEs was relatively low. Use of EC-MPS is a valid alternative for renal transplant recipients receiving maintenance MMF treatment.     

Impact of dose reductions on efficacy outcome in heart transplant patients receiving enteric-coated mycophenolate sodium or mycophenolate mofetil at 12 months post-transplantation

Mycophenolic acid (MPA) dose reduction is associated with increased risk of rejection and graft loss in renal transplantation. This analysis investigated the impact of MPA dose changes with enteric-coated mycophenolate sodium (EC-MPS) or mycophenolate mofetil (MMF) in de novo heart transplant recipients. In a 12-month, single-blind trial, 154 patients (EC-MPS, 78; MMF, 76) were randomized to either EC-MPS (1080 mg bid) or MMF (1500 mg bid) in combination with cyclosporine and steroids. The primary efficacy variable was the incidence of treatment failure, comprising a composite of biopsy-proven (BPAR) and treated acute rejection, graft loss or death. Significantly fewer patients receiving EC-MPS required > or =2 dose reductions than patients on MMF (26.9% vs. 42.1% of patients, p = 0.048). Accordingly, the average daily dose of EC-MPS as a percentage of the recommended dose was significantly higher than for MMF (88.4% vs. 79.0%, p = 0.016). Among patients requiring > or =1 dose reduction, the incidence of treated BPAR grade > or =3A was significantly lower with EC-MPS compared with MMF (23.4% vs. 44.0%, p = 0.032). These data suggest that EC-MPS-treated heart transplant patients are less likely to require multiple dose reductions than those on MMF which may be associated with a significantly lower risk of treated BPAR > or =3A.     

Pharmacokinetics of mycophenolate mofetil in stable pediatric liver transplant recipients receiving mycophenolate mofetil and cyclosporine.

There are few pharmacokinetic data for mycophenolate mofetil (MMF) when used in combination with cyclosporine (CsA) in pediatric liver transplant recipients. The aim of this study was to assess the pharmacokinetics of MMF in stable pediatric liver transplant patients and estimate the dose of MMF required to provide a mycophenolic acid (MPA) exposure similar to that observed in adult liver transplant recipients receiving the recommended dose of MMF (target area under the plasma concentration-time curve from 0 to 12 hours [AUC(0-12)] for MPA of 29 mug.hour/mL in the immediate posttransplantation period and 58 microg x hour/mL after 6 months). A 12-hour pharmacokinetic profile was collected for 8 pediatric patients (mean age 20.9 months) on stable doses of MMF and CsA who had received a liver transplant > or = 6 months prior to entry and who had started on MMF within 2 weeks of transplantation. Mean MMF dosage was 285 mg/m(2) (range, 200-424 mg/m(2)). Of 8 patients, 7 had a MPA AUC(0-12) (range, 11.0-37.2 microg x hour/mL) well below the target. One patient had an AUC(0-12) > or = 58 microg x hour/mL but was considered an outlier and was excluded from analyses. Mean MPA AUC(0-12) and maximum plasma concentration values were 22.7 +/- 10.5 microg x hour/mL and 7.23 +/- 3.27 microg/mL, respectively; values normalized to 600 mg/m(2) (the approved pediatric dose in renal transplantation) were 47.0 +/- 21.8 microg x hour/mL and 14.5 +/- 4.21 microg/mL. In conclusion, assuming that MPA exhibits linear pharmacokinetics, when used in combination with CsA, a MMF dose of 740 mg/m(2) twice daily would be recommended in pediatric liver transplant recipients to achieve MPA exposures similar to those observed in adult liver transplant recipients. This finding should be confirmed by a prospective trial.     

Pharmacokinetics of daclizumab and mycophenolate mofetil with cyclosporine and steroids in renal transplantation

Daclizumab and mycophenolate mofetil (MMF) decrease the incidence of acute allograft rejection. This double-blind, randomized, placebo-controlled trial was performed primarily to assess the pharmacokinetics of MMF in an immunosuppressive regimen incorporating daclizumab. At five centers, 75 renal transplant recipients were randomized 2:1 to receive either daclizumab 1 mg/kg or placebo pre-transplantation and every other week, for a total of five doses. All patients received cyclosporine, steroids, and MMF. Levels of mycophenolic acid (MPA), its glucuronide metabolite, and daclizumab were measured after dosing on days 28 and 56. Safety parameters evaluated included: adverse events, laboratory abnormalities, infections, patient/graft survival, incidence of lymphoproliferative disorders, and incidence of acute rejection at 12 months. The concomitant administration of daclizumab and MMF had no effect on the pharmacokinetics of MPA: AUC(0-8) values (microg h/mL +/- SD) on day 28 were 30.1 +/- 13.3 for daclizumab-treat patients vs. 31.1 +/- 12.4 for placebo and on day 56, 37.7 +/- 18.2 for daclizumab-treated patients vs. 35.7 +/- 14.0 for placebo. Adverse events were similar between the two groups. Acute rejection at 12 months occurred in 14% of patients receiving daclizumab and 20% of patients receiving placebo. The coadministration of daclizumab did not result in a pharmacokinetic interaction with MPA, the active metabolite of MMF.     

Enteric-coated mycophenolate sodium immunosuppression in renal transplant patients: efficacy and dosing

Mycophenolate mofetil (MMF), a mycophenolic acid (MPA) formulation, has improved both short- and long-term outcomes following renal transplantation, but is often associated with gastrointestinal (GI) complications that can lead to dose reduction or discontinuation, potentially jeopardizing patient outcomes. Enteric-coated mycophenolate sodium (EC-MPS) delivers equivalent MPA exposure to MMF and offers the potential to reduce GI burden (while maintaining patient safety). Here we review the efficacy of EC-MPS compared with MMF in renal transplant patients in terms of biopsy-proven acute rejection and graft loss, and examine the use of EC-MPS in newer regimens such as intensified dosing and calcineurin inhibitor minimization.     

Pharmacokinetics and pharmacodynamics of mycophenolate sodium (EC-MPS) co-administered with cyclosporine in the early-phase post-kidney transplantation

Mycophenolate drug levels are decreased by co-administration of cyclosporine. However, mycophenolate levels may be associated with insufficient immunosuppression. We investigated the pharmacokinetics of 720 mg mycophenolate sodium (EC-MPS) and inosine monophosphate dehydrogenase (IMPDH) activity under co-medication with cyclosporine and steroids within the first 30 d after kidney transplantation (n = 24). Blood samples were drawn at 0, 0.5, 1, 1.5, 2, 3, 4, 6, 8, and 12 h after the morning dose. Plasma concentrations of mycophenolic acid, its glucuronide metabolites (MPAG; AcMPAG), and free MPA were determined using validated HPLC-DAD. IMPDH activity in leukocytes was analyzed chromatographically. Only six of 24 patients had an MPA-AUC(12h) within the putative therapeutic range of 40-60 mg/L·h. MPA clearance was high with 29 L/h. fMPA-AUC(12h) (r = -0.429, p = 0.04) and MPAG-AUC(12h) correlated significantly with the glomerular filtration rate, while total MPA did not. The MPAG-AUC(12h) was about 52-fold higher than the corresponding values for MPA, whereas the AcMPAG-AUC(12h) reached about 20.4% of the respective MPA-AUC(12h.) We found significant correlations between IMPDH inhibition and MPA concentration (r = -0.665; p < 0.0001), fMPA (r = -0.446; p = 0.003), and AcMPAG (r = -0.459; p = 0.002) but not with MPAG. Only 25% of the patients attained the therapeutic range for MPA-AUC under standard EC-MPS dose during the early-phase post-transplantation. We recommend that EC-MPS should be given in higher doses (3 × 720 mg) in the early post-transplant period when co-administered with cyclosporine.     

Pharmacokinetics help optimizing mycophenolate mofetil dosing in kidney transplant patients

BACKGROUND: Mycophenolic acid (MPA), the active metabolite of mycophenolate mofetil (MMF), is now routinely used as immunosuppressant in solid organ transplantation in a fixed daily dose regimen (2 g/d) in association with cyclosporine (CsA) and steroids. However, no correlation has been shown between fixed MMF dose and clinical outcome. METHODS: Here we examined the possibility of optimizing MMF dosing by drug pharmacokinetic monitoring in 46 stable kidney transplant recipients. MPA plasma concentration profiles were measured by a reverse-phase high-performance liquid chromatography method 6-9 months after transplantation and related with routine laboratory analysis tests. Since MPA is extensively bound to serum albumin and only the free fraction is pharmacologically active, in a subgroup of 23 patients free plasma MPA was also determined. RESULTS: Despite a comparable MMF dose, a large interindividual variability in both MPA area under the curve (AUC) from 0 to 12 h (range 10.1-99.8 microg/mL. h) and in trough levels (range 0.24-7.04 microg/mL) was found. Patients with AUC >40 microg/mL. h showed a better (p<0.05) renal function than patients with lower AUC (creatinine clearance 85.7+/-23.2 versus 64.5+/-17.5 mL/min), despite no difference in CsA dose, CsA AUC and blood CsA trough level. The percentage of free plasma MPA but not total MPA correlated with the red blood cell and leukocyte count. CONCLUSIONS: Therapeutic MMF drug monitoring might contribute to a better management of kidney transplant recipient with the goal of optimizing drug dosing and limiting the risk of MMF-related toxicity.     

Clinical evolution in the first 3 months of patients after liver transplantation in maintenance phase converted from mycophenolate mofetil to mycophenolate sodium due to gastrointestinal complications

The enteric-coated mycophenolate sodium (EC-MPS) is a new formulation of mycophenolic acid with a gastro-resistant enteric coating, which releases the drug in the intestine, reducing the incidence of the gastrointestinal (GI) adverse effects. The present work provided a summary of 20 patients with liver transplantation and more than a 1 year of treatment with mycophenolate mofetil (MMF) who, after presentation of GI complications, were converted to EC-MPS. The patients were followed over a 3-month period after beginning EC-MPS treatment. The mean age of the cohort was 53 +/- 10 years and included 75% men. The reasons for transplantation were ethanol cirrhosis (70%), hepatitis C cirrhosis (30%), hepatocarcinoma (5%), and Wilson's disease (5%). At baseline, all patients were being treated with cyclosporine (CsA). CsA doses and levels were reduced during follow-up: baseline dose 179 mg/day versus 143 mg/day at 3 months; levels: 90.4 ng/mL versus 85.8 ng/mL, respectively (P = .017). The administered dose of EC-MPS was 720 mg/day in all cases. The GI complications at baseline were: diarrhea 60% (92% moderate-severe), abdominal discomfort 60% (58% moderate), abdominal pain 45% (44% moderate-severe), gas 40% (38% moderate-severe), nausea 20% (25% moderate), and dyspepsia 20% (mild). After 3 months of EC-MPS treatment, only two patients (10%) displayed moderate diarrhea. The renal evolution was favorable, serum creatinine was reduced, and 24-hour creatinine clearance significantly increased (creatinine: 1.78 +/- 1.6 mg/dL at baseline versus 1.30 +/- 0.3 mg/dL at 3 months, P = .002; creatinine clearance: 72.8 +/- 18 mL/min versus 79.6 +/- 13 mL/min, P = .001). Conversion of MMF to EC-MPS in liver transplant recipients solved the GI tolerability problems and improved renal function during the first 3 months, probably due to the concomitant reduction of anticalcineurinic dose.     

Use of Mycophenolate Sodium in Stable Renal Transplant Recipients in Spain: Preliminary Results of the MIDATA Study

Introduction

The use of mycophenolate mofetil (MMF) is limited by gastrointestinal adverse events (GI-AEs). Enteric-coated mycophenolate sodium (EC-MPS) was developed to avoid these effects.

Methods

This multicenter prospective study sought to analyze the clinical benefit of EC-MPS among 726 stable renal transplant recipients in Spain. The data collection included: doses and trough levels of mycophenolic acid (MPA) and calcineurin inhibitors (CNI), renal function, routine biochemical parameters (3-6 months preconversion, baseline, and 1, 3, 6, and 12 months of EC-MPS initiation), as well as graft and patient survivals and adverse events.

Results

The main indication for EC-MPS introduction was GI-AEs associated with MMF (44.1%). Preliminary data showed that before introduction of EC-MPs there was a progressive deterioration of renal function, as demonstrated by a negative slope of the creatinine clearance (P < .005). However, after EC-MPS conversion, the slope became positive (P < .05), suggesting an improvement in renal function. Only in 4.8%, EC-MPS was stopped due to GI-AEs. There was an increase in MPA serum levels (P < .01) and a reduction in CNI doses. Interestingly, 80% of 85 patients without MMF treatment because of severe GI-AEs tolerated EC-MPS, including 43% who could be treated with adequate doses of EC-MPS (≥720 mg/d).

Conclusions

There was a significant improvement in GI-AEs after conversion from MMF to EC-MPS. The use of lower doses of CNI and the better tolerability of EC-MPS could be the underlying causes of improvement in renal function.     

A multicenter, randomized trial of increased mycophenolic acid dose using enteric-coated mycophenolate sodium with reduced tacrolimus exposure in maintenance kidney transplant recipients

Mycophenolic acid (MPA) dose is frequently reduced in tacrolimus-treated kidney transplant patients, but alternatively the recommended MPA dose can be maintained with reduced tacrolimus exposure. In a 6-month, multicenter, randomized, openlabel study, maintenance kidney transplant patients receiving MPA (mycophenolate mofetil 1g/d or enteric-coated mycophenolate sodium (EC-MPS) 720 mg/d) and tacrolimus were randomized to convert to EC-MPS 1,440 mg/d with reduced tacrolimus (n = 46), or receive EC-MPS 720 mg/d with unchanged tacrolimus (n = 48). Mean estimated GFR (eGFR, aMDRD) at Month 6 was 49.1 ± 11.1 and 44.7 ± 11.5 ml/min/1.73 m2 in the EC-MPS 1,440 mg and 720 mg groups, respectively (p = 0.07). The primary endpoint, change in eGFR from Day 0 to Month 6, was 2.48 ± 0.95 ml/min/1.73 m2 with EC-MPS 1,440 mg and -0.48 ± 0.93 ml/min/1.73 m2 with EC-MPS 720 mg (difference 2.96 ml/min/1.73 m2; 95% CI 0.32 - 5.60; p = 0.028). There were no deaths, graft losses or acute rejections. Adverse events were more frequent with EC-MPS 1,440 mg than 720 mg (66.7% vs. 44.7%, p = 0.034). Adverse events with suspected relation to EC-MPS occurred in 26.7% and 21.3% of patients, respectively (p = 0.59). Conversion of kidney transplant patients to increased MPA dosing using EC-MPS 1,440 mg/d, with reduced tacrolimus exposure, appears an effective immunosuppression strategy and may improve renal function. Adverse events overall, but not those with a suspected relation to EC-MPS, were higher with ECMPS 1,440 mg/d.