Multilayered Polysaccharide Nanofilms for Controlled Delivery of Pentoxifylline and Possible Treatment of Chronic Venous Ulceration

Jan Stana, Janja Stergar, Lidija Gradišnik, Vojko Flis, Rupert Kargl, Eleonore Fröhlich, Karin Stana Kleinschek, Tamilselvan Mohan, Uroš Maver

Publikation: Beitrag in einer FachzeitschriftArtikelForschungBegutachtung

Abstract

Local drug delivery systems made from nontoxic polysaccharide nanofilms have an enormous potential in wound care. A detailed understanding of the structural, surface, physicochemical, and cytotoxic properties of such systems is crucial to design clinically efficacious materials. Herein, we fabricated polysaccharide-based nanofilms onto either a 2D model (SiO2 and Au sensors) or on nonwoven alginate 3D substrates using an alternating assembly of N,N,N-trimethylchitosan (TMC) and alginic acid (ALG) by a spin-assisted layer-by-layer (LbL) technique. These TMC/ALG multilayered nanofilms are used for a uniform encapsulation and controlled release of pentoxifylline (PTX), a potent anti-inflammatory drug for treatment of the chronic venous ulceration. We show a tailorable film growth and mass, morphology, as well as surface properties (charge, hydrophilicity, porosity) of the assembled nanofilms through control of the coating during the spin-assisted assembly. The uniform distribution of the encapsulated PTX in the TMC/ALG nanofilms is preserved even with when the amount of the incorporated PTX increases. The PTX release mechanism from the model and real systems is studied in detail and is very comparable for both systems. Finally, different cell-based assays illustrated the potential of the TMC/ALG multilayer system in wound care (e.g., treatment chronic venous ulceration) applications, including a decrease of TNF-α secretion, a common indicator of inflammation.

Originalspracheenglisch
Seiten (von - bis)2732-2746
Seitenumfang15
FachzeitschriftBiomacromolecules
Jahrgang18
Ausgabenummer9
DOIs
PublikationsstatusVeröffentlicht - 11 Sep 2017
Extern publiziertJa

ASJC Scopus subject areas

  • Bioengineering
  • !!Biomaterials
  • !!Polymers and Plastics
  • !!Materials Chemistry

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