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1. Electrostimulable polymeric films with hyaluronic acid and lipid nanoparticles for simultaneous topical delivery of macromolecules and lipophilic drugs.

Author

Martin BA, Dalmolin LF, Lemos CN, de Menezes Vaidergorn M, da Silva Emery F, Vargas-Rechia CG, Ramos AP, and Lopez RFV

Subjects

Humans, Skin Absorption, Animals, Skin metabolism, Chitosan chemistry, Chitosan administration & dosage, Administration, Cutaneous, Drug Delivery Systems, Lipids chemistry, Lipids administration & dosage, Fibroins chemistry, Fibroins administration & dosage, Keratinocytes drug effects, Polymers chemistry, Polymers administration & dosage, Liposomes, Hyaluronic Acid chemistry, Hyaluronic Acid administration & dosage, Nanoparticles administration & dosage, Nanoparticles chemistry

Abstract

This study focused on developing electrically stimulable hyaluronic acid (HA) films incorporating lipid nanoparticles (NPs) designed for the topical administration of lipophilic drugs and macromolecules. Based on beeswax and medium-chain triglycerides, NPs were successfully integrated into silk fibroin/chitosan films containing HA (NP-HA films) at a density of approximately 10 11 NP/cm 2 , ensuring a uniform distribution. This integration resulted in a 40% increase in film roughness, a twofold decrease in Young's modulus, and enhanced film flexibility and bioadhesion work. The NP-HA films, featuring Ag/AgCl electrodes, demonstrated the capability to conduct a constant electrical current of 0.2 mA/cm 2 without inducing toxicity in keratinocytes and fibroblasts during a 15-min application. Moreover, the NPs facilitated the homogeneous distribution of lipophilic drugs within the film, effectively transporting them to the skin and uniformly distributing them in the stratum corneum upon film administration. The sustained release of HA from the films, following Higuchi kinetics, did not alter the macroscopic characteristics of the film. Although anodic iontophoresis did not noticeably affect the release of HA, it did enhance its penetration into the skin. This enhancement facilitated the permeation of HA with a molecular weight (MW) of up to 2 × 10 5 through intercellular and transcellular routes. Confocal Raman spectroscopy provided evidence of an approximate 100% increase in the presence of HA with a MW in the range of 1.5-1.8 × 10 6 in the viable epidermis of human skin after only 15 min of iontophoresis applied to the films. Combining iontophoresis with NP-HA films exhibits substantial potential for noninvasive treatments focused on skin rejuvenation and wound healing., (© 2024. Controlled Release Society.)

Published

2024