In vivo evaluation of thiolated chitosan tablets for oral insulin delivery.

Chitosan-6-mercaptonicotinic acid (chitosan-6-MNA) is a thiolated chitosan with strong mucoadhesive properties and a pH-independent reactivity. This study aimed to evaluate the in vivo potential for the oral delivery of insulin. The comparison of the nonconjugated chitosan and chitosan-6-MNA was performed on several studies such as mucoadhesion, release, and in vivo studies. Thiolated chitosan formulations were both about 80-fold more mucoadhesive compared with unmodified ones. The thiolated chitosan tablets showed a sustained release for 5 h for the polymer of 20 kDa and 8 h for the polymer of 400 kDa. Human insulin was quantified in rats' plasma by means of ELISA specific for human insulin with no cross-reactivity with the endogenous insulin. In vivo results showed thiolation having a tremendous impact on the absorption of insulin. The absolute bioavailabilities were 0.73% for chitosan-6-MNA of 20 kDa and 0.62% for chitosan-6-MNA 400 kDa. The areas under the concentration-time curves (AUC) of chitosan-6-MNA formulations compared with unmodified chitosan were 4.8-fold improved for the polymer of 20 kDa and 21.02-fold improved for the polymer of 400 kDa. The improvement in the AUC with regard to the most promising aliphatic thiomer was up to 6.8-fold. Therefore, chitosan-6-MNA represents a promising excipient for the oral delivery of insulin.

Development and in vivo evaluation of a new oral nanoparticulate dosage form for leuprolide based on polyacrylic acid.

It was the aim of this study to develop a nanoparticulate oral drug delivery system for leuprolide based on polyacrylic acid (PAA). In order to achieve formation of nanoparticles in a mild, aqueous environment, two different techniques were combined, namely hydrophobic ion pairing between leuprolide and sodium dodecyl sulphate in a first step, followed by encapsulation into nanoparticles gained by interpolymer complexation between polyacrylic acid and Pluronic F68. The obtained nanoparticles were characterized regarding particle size distribution, drug encapsulation efficiency and in vitro release profile. Additionally, the pharmacokinetic profiles of leuprolide after oral administration of PAA-nanoparticulate and PAA-control tablets to male Sprague-Dawley rats were assessed and compared. It could be shown, that hydrophobic ion pairing increased encapsulation efficacy of leuprolide and leads to a slowed drug release of nanoparticulate suspensions. Relative oral bioavailability of leuprolide could be increased by nanoparticulate tablets up to 4.2-fold. Results verify that the suggested approach is a promising strategy for the design of oral delivery systems for oral administration of peptide drugs.

The use of chitosan-6-mercaptonicotinic acid nanoparticles for oral peptide drug delivery.

The aim of this study was to develop a novel nanoparticulate formulation and test its potential for oral peptide drug delivery. Chitosan-6-mercaptonicotinic acid is a novel thiolated chitosan with strong mucoadhesive properties. Nanoparticles were developed by an ionic gellation method. The obtained particles were characterized in terms of mucoadhesion, stability, toxicity, and in vitro release. Human insulin (HI) was chosen as a model peptide drug, incorporated in the particles and orally administered to rats. Human insulin was quantified in the blood by means of ELISA. The size of the obtained particles was in the range of 200-300 nm and the zeta potential was determined to be +8-+23 depending on the amount of thiol groups attached on the polymer. After 3 h of incubation up to 60% of the thiolated chitosan nanoparticles remained attached to the mucosa in contrast to 20% of unmodified chitosan particles. The AUC of HI after oral administration of thiolated chitosan nanoparticles was 4-fold improved compared to unmodified chitosan nanoparticles. Due to these improvements, chitosan-6-mercaptonicotinic acid nanoparticles are promising vehicles for oral delivery of peptide drugs.