Transdermal Delivery of Lornoxicam Hybrid Nanogel: Design, Preparation, Characterization, and In-Vitro Diffusion Evaluation

Abstract

Lornoxicam was practically water insoluble and a nonsteroidal anti-inflammatory therapeutic agent thus associated with gastrointestinal tract (GIT) side effects. Lipid polymer hybrid nanocarriers (LPHNs)-based transdermal nanogel of lornoxicam was formulated to increase solubility of lornoxicam and sustained lornoxicam release that lead to eliminate GIT related side effect, prolong therapeutic activity and improve patient compliance .The lornoxicam LPHNs formulations (LH1-LH6) were prepared by microwaves based method. The conventional gel of lornoxicam (G) was prepared by solvent diffusion method. The LH1-LH6 was entered to characterization processes that were later used as a base to prepare lornoxicam hybrid nanogel formulations (LN1-LN6). The LN1-LN6 was tested for various evaluations. It was found that all the LH1-LH6 were show nanosize globules, low polydispersity index and acceptable surface charge, entrapment efficiency and drug loading. LH3 was the most optimized LPHNs due had lower particle size and higher lornoxicam release.The evaluation processes indicate stable organoleptic properties, high homogeneity, and acceptable values of pH. The comparability profile of the lornoxicam release from the lornoxicam nanogel formulations (LN1-LN6) and conventional lornoxicam gel (G) was in the following descending order: LN3 > LN2> LN1 > LN6 > LN5 > LN4 > G. The characterization and evaluation processes highly support promise transdermal delivery system to decrease pain and inflammation in musculoskeletal diseases.