Studies of Mucosal Irritation and Cellular Uptake Mechanisms of Xingnaojing Nanoemulsion

Abstract Xingnaojing (XNJ) injection was used to treat pneumonia and stroke in clinic in China, but with poor patient compliance. Xingnaojing nanoemulsion for intranasal delivery was developed to improve it. This article tried to evaluate the mucosal irritation of Xingnaojing nanoemulsion and investigate cellular uptake mechanism of its encapsulated lipophilic drugs. The toad palate model and rat nasal mucosa model were used to study the nasal ciliotoxicity and nasal mucosal irritation of nanoemulsion to evaluate its safety intranasally. The cellular uptake mechanism was studied by Calu-3 cell model. Coumarin 6 was encapsulated in nanoemulsion and the endocytic pathways were studied by cellular uptake experiments after being treated with different inhibitors. In toad palate model, the cilia movement of Xingnaojing nanoemulsion group last for 467.40 ± 39.02 min, which was obviously longer than deoxycholate group (90.60 ± 15.40 min). Studies on rats showed that the damage caused by nanemulsion is capable of being recovered. Nanoemulsion uptake was reduced obviously when cells were treated with wortmannin, and it also decreased about 13% when the temperature reduced from 37ºC to 4ºC. Mucosal irritation caused by nanoemulsion is low and the damage is recoverable. The cellular uptake of Xingnaojing nanoemulsion is energy-dependent, and macropinocytosis was the most important pathway for cellular uptake.

Preparation and evaluation of naloxone hydrochloride nasal spray / 国际药学研究杂志

Objective To prepare naloxone hydrochloride nasal spray and evaluate the ciliotoxicity and pharmacokinetics of the formulation. Methods The stability of naloxone hydrochloride was studied in pH3.5-5.5. Penetration promoting effects of absorp-tion enhancers on the naloxone hydrochloride were evaluated. Nasal ciliotoxicity studies were carried out using isolated toad palate. Rats were treated with naloxone hydrochloride solution by intramuscular injection of nasal drops to evaluate the pharmacokinetics. Results Naloxone hydrochloride solution was stable in pH3.5-5.5. Disodium ethylenediaminetetraacetic acid(0.2%,W/V)had the best penetration promoting effect on naloxone hydrochloride. Naloxone hydrochloride nasal spray did not exhibit obvious nasal ciliotox-icity compared to the negative control. The nasal spray had a faster therapeutic effect and its bioavailability was similar to that of the in-tramuscular injection. Conclusion Naloxone hydrochloride nasal spray prepared in this research is stable with no obvious nasal cilio-toxicity,has faster therapeutic effect,and good bioavailability,so may have a broad application prospect.