Tamás Bujdosó scite author profile

The main purpose of this study was to facilitate the delivery of kynurenic acid (KYNA) across the blood-brain barrier (BBB) by applying micelles as nanoscale containers. Non-ionic amphiphilic molecules were used for preparation of spherical micelles for delivery of kynurenic acid in aqueous solution in physiological condition. It was established that Triton X 100 and Lutensol AP 20 non-ionic surfactants are able to produce stable nanocontainers for delivery of kynurenic acid molecules. The incorporation of KYNA molecules was investigated by dynamic light scattering and the size of micelles were calculated between 5 and 10 nm in 150 mM NaCl and pH 7.5-7.6 solutions. Encapsulated kynurenic acid showed a significantly higher blood-brain barrier permeability compared with non-encapsulated kynurenic acid. The in vivo experiments showed that the encapsulated kynurenic acid is able to display effects within the central nervous system, even after its peripheral administration.

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Thin films of layered double hydroxide and silver-doped polystyrene particles

Bujdosó

Hornok

Dékány

2011

Applied Clay Science

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Tamás Bujdosó

Structural characterization of arsenate ion exchanged MgAl-layered double hydroxide

Structural and thermal properties of polystyrene nanocomposites containing hydrophilic and hydrophobic layered double hydroxides

Silver and Phosphate Functionalized Reactive TiO2/Polymer Composite Films for Destructions of Resistent Bacteria Using Visible Light

Preparation and properties of nanoscale containers for biomedical application in drug delivery: preliminary studies with kynurenic acid

Thin films of layered double hydroxide and silver-doped polystyrene particles

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