Resumen:
In the present work, the feasibility of cyclosporine A lipid nanoparticles (CsA LN) for oral administration was investigated. Three CsA LN formulations were developed using Precirol as lipid matrix, one stabilized with Tween(®) 80 (Tw) and the other two with mixtures of phosphatidylcholine or Pluronic(®) F127 with taurocholate (Lec:TC and PL:TC, respectively). The physical characteristics of the LN were studied under gastrointestinal pH and their integrity was found to be dependent on the stabilizers. The in vitro intestinal permeability was assessed with a human colon adenocarcinoma cell model and in vivo pharmacokinetic and biodistribution studies were performed in Balb/c mice using Sandimmune Neoral(®) as reference. In vitro results showed the highest CsA permeability with the LN containing Lec:TC. In contrast, the best in vivo performance was achieved from the LN containing Tw. The bioavailability of CsA was matched and even enhanced with Precirol nanoparticles. This study suggests the suitability of LN as promising vehicles for CsA oral delivery.