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Development of Epigallocatechin and Ascorbic Acid Dual Delivery Transferosomes for Managing Alzheimer’s Disease: In Vitro and in Vivo Studies

Gaurav Mishra, Rajendra Awasthi, Sunil Kumar Mishra, Anurag Kumar Singh, Anurag Kumar Tiwari, Santosh Kumar Singh, Manmath K. Nandi

2024ACS Omega18 citationsDOIOpen Access PDF

Abstract

Epigallocatechin-3-gallate (EGCG) and ascorbic acid (AA)-loaded transferosomes (TRANS) were developed for brain delivery. The investigation covered EGCG-TRANS, AA-TRANS, and EGCG-AA-TRANS formulations using the film hydration technique. We analyzed the formed transferosomes to confirm the presence of vesicles loaded with the respective drugs and their performance within a living organism. The sizes of the particles for EGCG-TRANS, AA-TRANS, and EGCG-AA-TRANS were measured correspondingly at 174.2 ± 1.80, 132.7 ± 12.22, and 184.31 ± 9.5 nm. The appearance of diffused rings in the scanning electron microscopic image suggests that the payload has a crystalline structure. The atomic force microscope image displayed minimal surface irregularities, potentially indicating the presence of a lipid layer on the surface. Hemolysis results indicated the safety of the vesicles. The results showed 10.23, 7.21, and 8.20% of hemolysis for EGCG-TRANS, AA-TRANS, and EGCG-AA-TRANS, respectively. In the case of EGCG-AA-TRANS, the release of EGCG was determined to be 61.65% ± 4.61 after 72 h when exposed to phosphate buffer saline (pH 7.4). In vivo studies show a good response against Alzheimer's disease (AD). EGCG-AA-TRANS (82.166%) exhibited a higher percentage of AChE inhibition in comparison to EGCG-TRANS (66.550%) and AA-TRANS (53.466%). Intranasal delivery of EGCG-AA-TRANS resulted in approximately a 5-fold enhancement in memory. Formulation allowed EGCG and AA to accumulate in various organs, including the brain. The results suggest that EGCG-AA-TRANS could be safe and effective for treating AD.

Topics & Concepts

Ascorbic acidIn vivoHemolysisChemistryIn vitroEpigallocatechin gallateBiochemistryBiologyAntioxidantImmunologyPolyphenolFood scienceBiotechnologyTea Polyphenols and EffectsAdvancements in Transdermal Drug DeliveryAdvanced Drug Delivery Systems
Development of Epigallocatechin and Ascorbic Acid Dual Delivery Transferosomes for Managing Alzheimer’s Disease: In Vitro and in Vivo Studies | Litcius