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Revista Española de Enfermedades Digestivas

versión impresa ISSN 1130-0108

Rev. esp. enferm. dig. vol.108 no.2 Madrid feb. 2016

 

LETTERS TO THE EDITOR

 

Contribution of infliximab population pharmacokinetic model for dose optimization in ulcerative colitis patients

 

 


Key words: Infliximab. Pharmacokinetics. Inflammatory bowel disease.


 

Dear Editor,

We read with great interest the paper by Pérez-Pitarch et al. entitled "A pharmacokinetic approach to model-guided design of infliximab schedules in ulcerative colitis patients" (1). They concluded that optimising Infliximab (IFX) doses by Monte Carlo simulation using a previously developed population pharmacokinetic (PPK) model in ulcerative colitis (UC) patient could improve the therapy in these patients. However, we considered appropriate to highlight some aspects of the topic which were not addressed by the authors and according to our experience with therapeutic drug monitoring (TDM) of IFX in patients with inflammatory bowel disease (IBD).

We agree that despite the proven clinical efficacy of anti-tumoral necrosis factor (anti-TNF) agents, treatment failure does occur as primary non-response or secondary loss of response (2). Although the causes of lack of response to anti-TNF drugs are multifactorial, the inter- and intra-individual pharmacokinetic (PK) variability plays an essential role. In that sense, two validated PPK models have been published for IFX in IBD patients. These models were developed using data of phase III ACT1 and ACT2 trials for UC (3) and phase III ACCENT I trial for Crohn's disease (CD) (4). Briefly, these models consisted on two-compartment models parameterized in terms of central and peripheral distribution volumes (Vc and Vp, respectively) and distributional and plasma clearances (CLd and CL, respectively). In the CD PPK model, body weight, serum albumin concentration (SAC), presence of antibodies toward IFX (ATI) and concomitant immunosuppressive therapy were identified as the best predictors of interpatient variability. The inclusion of these variables resulted in a greater reduction of unexplained interpatient variability in the final model vs. the base model. In the UC PPK model where the statistically and clinically meaningful covariates were SAC, ATI and gender.

Both models (3,4) were applied by our group to predict IFX systemic exposure by maximum a posteriori (MAP) Bayesian estimation in IBD patients of our hospital. The non-linear mixed-effects modelling (NONMEM) program v7.2 (Icon Development, Ellicott City, USA) was used for that purpose. Bias and imprecision were calculated to assess the predictive performance of both PPK models in each patient population.

Prediction of IFX individual concentrations (Cipred) in both populations (UC and CD) by using the CD PPK model led to a non-significant overall mean relative bias of -3.99% (IC95%: from -6.9 to 14.9%) and an acceptable imprecision of 18.96% (IC95%: 8.5-29.39). Moreover a good correlation was found (R-sq = 0.9209, p < 0.0001) between the observed (Cobs) and Cipred (Fig. 1). On the contrary, a bad prediction was found when the UC PPK model was applied in UC patients for the same purpose (R-sq = 0.6851). Therefore, the CD PPK model is, until now, the best tool to support dose tailoring during the TDM of IFX in patients of both populations.

 

 

Hence, further studies will be needed to improve the actual UC PPK model to be used for Bayesian prediction in IBD patients and dose optimization.

 

Eugènia Santacana-Juncosa1, Ariadna Padullés-Zamora1, Helena Colom-Codina2,
Lorena Rodríguez-Alonso3, Jordi Guardiola-Capo3, Jordi Bas-Minguet4
and Núria Padullés-Zamora1

1 Pharmacy. Hospital Universitari Bellvitge. Idibell. Hospitalet de Llobregat, Barcelona. Spain.
2 Pharmacokinetics. School of Pharmacy (Universitat de Barcelona). Barcelona, Spain.
3 Gastroenterology and 4Immunology. Hospital Universitari Bellvitge. Idibell.
Hospitalet de Llobregat, Barcelona. Spain

 

References

1. Pérez-Pitarch A, Ferriols-Lisart R, Alós-Almiñana M, et al. A pharmacokinetic approach to model-guided design of infliximab schedules in ulcerative colitis patients. Rev Esp Enferm Dig 2015;107:137-42.         [ Links ]

2. Ben-Horin S, Chowers Y. Review article: Loss of response to anti-TNF treatments in Crohn's disease. Aliment Pharmacol Ther 2011;33:987-95 DOI: 10.1111/j.1365-2036.2011.04612.x.         [ Links ]

3. Fasanmade AA, Adedokun OJ, Ford J, et al. Population pharmacokinetic analysis of Infliximab in patients with ulcerative colitis. Eur J Clin Pharmacol 2009;65:1211-28. DOI: 10.1007/s00228-009-0718-4.         [ Links ]

4. Fasanmade AA, Adedokun OJ, Blank M, et al. Pharmacokinetic properties of Infliximab in children and adults with Crohn's disease: A retrospective analysis of data from 2 phase III clinical trials. Clin Ther 2011;33:946-62. DOI: 10.1016/j.clinthera.2011.06.002.         [ Links ]