Functionalization of ginger derived nanoparticles with chitosan to design drug delivery system for controlled release of 5-amino salicylic acid (5-ASA) in treatment of inflammatory bowel diseases: An in vitro study

Abstract

The present study aimed at synthesising chitosan bound ginger nanocarriers for slow and controlled release of the drug 5-amino salicylic acid (5-ASA) against inflammatory bowel diseases (IBD). The chitosan, extracted from naturally occurring biopolymer chitin, was reacted to ginger extract (Zingiber officinale) to prepare chitosan-bounded ginger derived nanocarriers (C-GDNC) and further loaded with 5-ASA drug. The as-obtained drug loaded chitosan coated ginger derived nanocarriers (D-C-GNDC) were studied for controlled release of 5-ASA. In vitro experimental data implied slow and controlled release of 5-ASA and were kinetically justified by applying different kinetic models. The obtained percent drug loading capacity and entrapment efficiency were more than 50%. Various experimental factors affecting swelling controlled drug release of 5-ASA, such as change in pH of release medium, chemical composition of nanocarriers, percent drug loading, and simulated biofluids as release media, were investigated. The prepared nanomaterials were well characterized and examined for chemical stability and in vitro cytotoxicity to check their biocompatible nature. The overall studies concluded that the controlled release of 5-ASA was favourable at the gastrointestinal pH which is desirably beneficial against inflammation of bowl.