Temperature-Responsive Nanogel Multilayers Of Poly(N-Vinylcaprolactam) For Topical Drug Delivery

Keywords

Diclofenac; Drug release; Hydrogen-bonding; Multilayer hydrogel; Poly(N-vinylcaprolactam); Temperature-responsive nanogels; Topical delivery

Abstract

We report nanothin temperature-responsive hydrogel films of poly(N-vinylcaprolactam) nanoparticles (νPVCL) with remarkably high loading capacity for topical drug delivery. Highly swollen (νPVCL) n multilayer hydrogels, where n denotes the number of nanoparticle layers, are produced by layer-by-layer hydrogen-bonded assembly of core-shell PVCL-co-acrylic acid nanoparticles with linear PVPON followed by cross-linking of the acrylic acid shell with either ethylene diamine (EDA) or adipic acid dihydrazide (AAD). We demonstrate that a (νPVCL) 5 film undergoes dramatic and reversible swelling up to 9 times its dry thickness at pH = 7.5, indicating 89 v/v % of water inside the network. These hydrogels exhibit highly reversible ∼3-fold thickness changes with temperature variations from 25 to 50 °C at pH = 5, the average pH of human skin. We also show that a (νPVCL) 30 hydrogel loaded with ∼120 µg cm −2 sodium diclofenac, a non-steroidal anti-inflammatory drug used for osteoarthritis pain management, provides sustained permeation of this drug through an artificial skin membrane for up to 24 h at 32 °C (the average human skin surface temperature). The cumulative amount of diclofenac transported at 32 °C from the (νPVCL) 30 hydrogel after 24 h is 12 times higher than that from the (νPVCL) 30 hydrogel at 22 °C. Finally, we demonstrate that the (νPVCL) hydrogels can be used for multiple drug delivery by inclusion of Nile red, fluorescein and DAPI dyes within the νPVCL nanoparticles prior to hydrogel assembly. Using confocal microscopy we observed the presence of separate dye-loaded νPVCL compartments within the hydrogel matrix with all three dyes confined to the nanogel particles without intermixing between the dyes. Our study provides opportunity for development of temperature-responsive multilayer hydrogel coatings made via the assembly of core-shell nanogel particles which can be used for skin-sensitive materials for topical drug delivery.

Publication Date

11-15-2017

Publication Title

Journal of Colloid and Interface Science

Volume

506

Number of Pages

589-602

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1016/j.jcis.2017.07.084

Socpus ID

85026365775 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/85026365775

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