Background <p>Mycophenolic acid (MPA) has complex pharmacokinetics in part due to enterohepatic recirculation (EHR). A deeper understanding of MPA pharmacokinetics and specifically how EHR and patterns of EHR affect exposure will improve immunosuppression outcomes. This study provides a contemporary and comprehensive assessment of MPA and metabolites in the blood and urine with a focus on EHR characteristics.</p> Methods <p>Kidney transplant recipients (<i>n</i> = 84) receiving mycophenolate mofetil (MMF) and tacrolimus underwent an intensive MPA pharmacokinetic assessment. Pharmacokinetics of MPA and its metabolites, EHR%, and number of secondary peaks were determined. The associations between EHR, the number of secondary peaks, and achievement of MPA therapeutic range were studied. MMF dose proportionality with MPA exposure was evaluated.</p> Results <p>MPA exhibited high pharmacokinetic variability, with 5.5-fold differences in AUC<sub>0–12</sub>, 18.4-fold differences in trough concentrations, and a 3.4-fold difference in EHR%. Median MPA EHR% was 40.5%. There were no significant associations between EHR% and MPA AUC<sub>0–12</sub> or trough. MPA AUC<sub>0–12</sub> and trough were significantly associated with the number of MPA secondary peaks (0, 1, or ≥ 2 peaks). Participants without secondary peaks showed the highest percentage of subtherapeutic MPA AUC<sub>0–12</sub> and troughs, while participants with ≥ 2 peaks were more likely to be supratherapeutic.</p> Conclusions <p>There was no association between the EHR% and MPA AUC<sub>0–12</sub> or trough. We identified three distinct patterns of MPA secondary peaks (0, 1, or ≥ 2 peaks), which were significantly associated with MPA AUC<sub>0–12</sub> and trough. Studies to evaluate the relationship of MPA EHR&#xa0;measures and clinical outcomes are needed.</p> Trial Registry <p>Clinical Trial Notation: clinicaltrials.gov, NCT04953715.</p>

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A Mycophenolate Pharmacokinetic Study with New Insights into Enterohepatic Recirculation in Kidney Transplant Recipients

  • Moataz E. Mohamed,
  • Abdelrahman Saqr,
  • Guillaume Onyeaghala,
  • Rory P. Remmel,
  • Christopher Staley,
  • Casey R. Dorr,
  • Levi Teigen,
  • Weihua Guan,
  • Duy Vo,
  • Rasha El-Rifai,
  • William S. Oetting,
  • Arthur J. Matas,
  • Ajay K. Israni,
  • Pamala A. Jacobson

摘要

Background

Mycophenolic acid (MPA) has complex pharmacokinetics in part due to enterohepatic recirculation (EHR). A deeper understanding of MPA pharmacokinetics and specifically how EHR and patterns of EHR affect exposure will improve immunosuppression outcomes. This study provides a contemporary and comprehensive assessment of MPA and metabolites in the blood and urine with a focus on EHR characteristics.

Methods

Kidney transplant recipients (n = 84) receiving mycophenolate mofetil (MMF) and tacrolimus underwent an intensive MPA pharmacokinetic assessment. Pharmacokinetics of MPA and its metabolites, EHR%, and number of secondary peaks were determined. The associations between EHR, the number of secondary peaks, and achievement of MPA therapeutic range were studied. MMF dose proportionality with MPA exposure was evaluated.

Results

MPA exhibited high pharmacokinetic variability, with 5.5-fold differences in AUC0–12, 18.4-fold differences in trough concentrations, and a 3.4-fold difference in EHR%. Median MPA EHR% was 40.5%. There were no significant associations between EHR% and MPA AUC0–12 or trough. MPA AUC0–12 and trough were significantly associated with the number of MPA secondary peaks (0, 1, or ≥ 2 peaks). Participants without secondary peaks showed the highest percentage of subtherapeutic MPA AUC0–12 and troughs, while participants with ≥ 2 peaks were more likely to be supratherapeutic.

Conclusions

There was no association between the EHR% and MPA AUC0–12 or trough. We identified three distinct patterns of MPA secondary peaks (0, 1, or ≥ 2 peaks), which were significantly associated with MPA AUC0–12 and trough. Studies to evaluate the relationship of MPA EHR measures and clinical outcomes are needed.

Trial Registry

Clinical Trial Notation: clinicaltrials.gov, NCT04953715.