Polymeric micelles based on amphiphilic oleic acid modified carboxymethyl chitosan for oral drug delivery of bcs class iv compound: Intestinal permeability and pharmacokinetic evaluation

Abstract

Chemical modification of chitosan derivatives with hydrophobic fatty acids to enhance their self-aggregation behavior is well established. Previously our group reported low molecular weight carboxymethyl chitosan (CMCS) which showed enhancement in apparent permeability of hydrophobic drug, tamoxifen. Further extension to this work, herein we synthesize a new polymer of oleic acid grafted low molecular weight carboxymethyl chitosan (OA-CMCS) for maneuvering biopharmaceutical performance of poorly water soluble drugs. This polymer was designed and synthesized via amidation reaction and well characterized by analytical tools like 1H-NMR and FT-IR spectroscopy. OA-CMCS conjugate easily self-organized into micelles like structure in an aqueous medium and showed a low critical micellar concentration of 1 µg/mL. Poorly water-soluble drug, docetaxel (DTX) was used as a model drug in this study. Optimization of variables resulted in the formation of spherical DTX loaded OA-CMCS micelles in the size range of 213.4 ± 9.6 nm with an entrapment efficiency of 57.26 ± 1.25%. DTX loaded OA-CMCS micelles showed slow and sustained DTX release behavior in simulated body fluid during in vitro release study. The permeability of DTX loaded OA-CMCS micelles across the gastrointestinal tract were investigated by in vitro Caco-2 cells model. The apparent permeability of DTX loaded OA-CMCS micelles improved up to 6.57-fold in comparison to free DTX suspension which indicates the increase in paracellular absorption of DTX. Additionally, in vivo pharmacokinetic study demonstrates an increase in Cmax (1.97-fold) and AUC (2.62-fold) for DTX loaded OA-CMCS micelles compared to free DTX suspension. Hence, we propose OA-CMCS as a promising cargo to incorporate drugs for enhancement of biopharmaceutical performance.