Preclinical pharmacokinetics of benznidazole-loaded interpolyelectrolyte complex-based delivery systems

HIMELFARB, MARTÍN A.; JIMENEZ-KAIRUZ, ALVARO; GARCÍA, MÓNICA CRISTINA; LITTERIO, NICOLÁS J.; GUZMAN, MARÍA LAURA; OLIVERA, MARÍA EUGENIA

EUROPEAN JOURNAL OF PHARMACEUTICAL SCIENCES

ELSEVIER SCIENCE BV

Año: 2018 vol. 122 p. 281 - 291

0928-0987

Benznidazole (BZ), first-line drug for Chagas treatment, is available as immediate-release tablets. High frequency of administration, long-term therapy, and side effects of BZ conspire against treatment adherence, and negatively impact in therapeutic success. We have developed BZ-loaded interpolyelectrolyte complexes (IPECs) composed of polymethacrylates (EE-EL-BZ) or polysaccharides (Ch-AA-BZ) for controlled BZ release. This work aimed to evaluate their preclinical pharmacokinetics compared to Abarax® (reference treatment) and to correlate them with the in vitro BZ release. A randomization schedule with a 3 × 2 cross-over design was used. Each healthy dog received a single oral dose of 100 mg of BZ from EE-EL-BZ, Ch-AA-BZ or Abarax®. BZ quantification was performed in plasma by a validated HPLC-UV method. Moreover, in silico simulations using the pharmacokinetic software PK Solutions 2.0? were calculated for the multiple-dose administration at two dose regimens: 100 mg of BZ administered every 12 and 24 h. Also, the relationship between in vitro dissolution and in vivo plasma BZ concentration profiles in a single step was model for IVIVC analysis. BZ was rapidly absorbed from all formulations. The Cmax value for Ch-AA-BZ was 32% higher than reference (p < 0.05) and an earlier Tmax (4.2 h) was observed as compared to EE-EL-BZ (6.0 h). For both IPECs, the Tmax values were higher (p < 0.05) and the areas under the curve were 25% greater than those of Abarax® (p < 0.01). Despite these variations in pharmacokinetics parameters, simulations of once or twice daily dosing showed that all formulations reached a steady-state range concentration above of the minimum therapeutic dose while avoiding high BZ concentrations related to increased side effects. A linear level A IVIVC model was established using plasma concentration profiles and dissolved data obtained. Thus, BZ-loaded IPECs prolonged drug release and formulated as capsules showed improved in vivo performance, in terms of bioavailability and Tmax values, which were significantly higher compared to Abarax®. These BZ carrier systems would be useful for oral administration in the treatment of Chagas disease.