Maja Kaisersberger-Vincek scite author profile

Maja Kaisersberger-Vincek

2Publications

23Citation Statements Received

88Citation Statements Given

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Affiliations

University of Maribor

Publications

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Plasma-Activated Polypropylene Mesh-Gelatin Scaffold Composite as Potential Implant for Bioactive Hernia Treatment

Gorgieva

Modić

Dovgan

et al. 2014

Plasma Process. Polym.

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Novel, polypropylene mesh (PP mesh ) -gelatin scaffold (GEL scaffold ) composites are prepared from O 2 -plasma activated PP mesh , coated with GEL solution being in-situ structured in a 3D scaffold with by-preparation tuned, gradual porosity. The fabricated biomimeticlike composites demonstrate frequency-dependent rheological behaviour and high (up to 100%) intrinsic and/or by e-poly-L-lysine evoked antibacterial activity against S. aureus and E. coli, latter demonstrating preparation-dependant releasing profile, without triggering in-vitro cytotoxicity. Finally, long-term (up to 2 months) biodegradation resistance highlight the composite potential as active, biomimetic barrier in hernia treatment.

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Antibacterial activity of chemically versus enzymatic functionalized wool with ɛ-poly-L-lysine

Kaisersberger-Vincek

Štrancar

Kokol

2016

Textile Research Journal

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The effect of the coupling approach (chemical by using carbodiimide chemistry and grafting-to versus grafting-from synthesis routes, and enzymatic by using transglutaminase) of ɛ-poly-L-lysine (ɛPL) graft yield with wool fibers was studied and evaluated related to their antibacterial activity against gram-negative Escherichia coli and gram-positive Staphylococcus aureus bacteria, after 1–24 h of exposure. While the ɛPL applied was evaluated colorimetrically by wool staining with two acid dyes and quantitatively by evaluation of the basic groups using potentiometric titration, its orientation was determined by Fourier transform infrared spectroscopy and, for the first time, by Electron Paramagnetic Resonance spectroscopy using spin-labeled ɛPL. The highest (∼99% for E. coli versus ∼92% for S. aureus) and kinetically the fastest (in 3 h) antibacterial activity with ∼83% for E. coli versus ∼64% for S. aureus bactericidal effect was determined for the wool functionalized by the chemical grafting-to approach. Such an effect may be related to both quantitatively the highest (∼62 gɛPL/kgwool) grafting yield of ɛPL and conformationally its highly flexible “brush-like” structure. Comparably, the enzymatic coupling (∼50 gɛPL/kgwool) giving ∼95% and ∼8% reductions of E. coli and S. aureus, respectively, being additionally reduced to ∼74% and ∼78% by using the grafting-from approach (∼34 gɛPL/kgwool), was identified as the less bactericidally effective (∼63% versus ∼58%). It was also shown that a non-ionic surfactant being used in the durability testing of functionalized wool to washing adheres strongly onto the fibers, thus blocking the amino groups of ɛPL, and, as such, decreases the antibacterial efficiency of the wool, being unaffected in the case when the washing was carried out without surfactant.

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