Litcius/Paper detail

Two-Layer Sustained-Release Microneedles Encapsulating Exenatide for Type 2 Diabetes Treatment

Han Liu, Suohui Zhang, Zequan Zhou, Mengzhen Xing, Yunhua Gao

2022Pharmaceutics14 citationsDOIOpen Access PDF

Abstract

Daily administration of multiple injections can cause inconvenience and reduce compliance in diabetic patients; thus, microneedle (MN) administration is favored due to its various advantages. Accordingly, the two-layer sustained-release MNs (TS-MNs) were fabricated by encapsulating exenatide (EXT) in calcium alginate (CA) gel in this work. The TS-MNs were composed of a sodium alginate (SA) tip and a water-soluble matrix-containing calcium chloride (CaCl2). Subsequently, the calcium ion (Ca2+) contained in the matrix layer penetrated the tip layer for cross-linking, leaving the drug in the cross-linked network. The patches have adequate mechanical strength to pierce the skin; then, the matrix layer is dissolved, leaving the tip layer to achieve sustained release. Additionally, the TS-MNs encapsulating EXT retained high activity during long-term storage at room temperature. The pharmacokinetic results indicated that the plasma concentrations of EXT were sustained for 48 h in the EXT MN group, which agreed with the in vitro release test. Furthermore, they had high relative bioavailability (83.04%). Moreover, the hypoglycemic effect was observed to last for approximately 24 h after a single administration and remained effective after multiple administrations without drug resistance. These results suggest that the TS-MNs are a promising depot for the sustained delivery of encapsulated EXT.

Topics & Concepts

ExenatideBioavailabilityCalciumChemistryPharmacologyIn vitroMatrix (chemical analysis)DrugSodiumDrug deliveryImmediate releaseBiomedical engineeringMaterials scienceType 2 diabetesChromatographyDiabetes mellitusBiochemistryMedicineEndocrinologyOrganic chemistryAdvancements in Transdermal Drug DeliveryAdvanced Drug Delivery SystemsOcular Surface and Contact Lens