Cell growth on electrospun nanofiber mats from polyacrylonitrile (PAN) blends

Daria Wehlage; Hannah Blattner; Al Mamun; Ines Kutzli; Elise Diestelhorst; Anke Rattenholl; Frank Gudermann; Dirk Lütkemeyer; Andrea Ehrmann

doi:10.3934/bioeng.2020004

AIMS Bioengineering (Apr 2020)

Cell growth on electrospun nanofiber mats from polyacrylonitrile (PAN) blends

Daria Wehlage,
Hannah Blattner,
Al Mamun,
Ines Kutzli,
Elise Diestelhorst,
Anke Rattenholl,
Frank Gudermann,
Dirk Lütkemeyer,
Andrea Ehrmann

Affiliations

Daria Wehlage: 1 Faculty of Engineering and Mathematics, Bielefeld University of Applied Sciences, Bielefeld, Germany
Hannah Blattner: 1 Faculty of Engineering and Mathematics, Bielefeld University of Applied Sciences, Bielefeld, Germany
Al Mamun: 1 Faculty of Engineering and Mathematics, Bielefeld University of Applied Sciences, Bielefeld, Germany
Ines Kutzli: 2 Institute of Food Science and Biotechnology, Department of Food Physics and Meat Science, University of Hohenheim, Stuttgart, Germany
Elise Diestelhorst: 1 Faculty of Engineering and Mathematics, Bielefeld University of Applied Sciences, Bielefeld, Germany
Anke Rattenholl: 1 Faculty of Engineering and Mathematics, Bielefeld University of Applied Sciences, Bielefeld, Germany
Frank Gudermann: 1 Faculty of Engineering and Mathematics, Bielefeld University of Applied Sciences, Bielefeld, Germany
Dirk Lütkemeyer: 1 Faculty of Engineering and Mathematics, Bielefeld University of Applied Sciences, Bielefeld, Germany
Andrea Ehrmann: 1 Faculty of Engineering and Mathematics, Bielefeld University of Applied Sciences, Bielefeld, Germany

DOI: https://doi.org/10.3934/bioeng.2020004
Journal volume & issue: Vol. 7, no. 1
pp. 43 – 54

Abstract

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Nanofiber mats can be produced by electrospinning from diverse polymers and polymer blends as well as with embedded ceramics, metals, etc. The large surface-to-volume ratio makes such nanofiber mats a well-suited substrate for tissue engineering and other cell growth experiments. Cell growth, however, is not only influenced by the substrate morphology, but also by the sterilization process applied before the experiment as well as by the chemical composition of the fibers. A former study showed that cell growth and adhesion are supported by polyacrylonitrile/gelatin nanofiber mats, while both factors are strongly reduced on pure polyacrylonitrile (PAN) nanofibers. Here we report on the influence of different PAN blends on cell growth and adhesion. Our study shows that adding ZnO to the PAN spinning solution impedes cell growth, while addition of maltodextrin/pea protein or casein/gelatin supports cell growth and adhesion.

Published in AIMS Bioengineering

ISSN: 2375-1487 (Print); 2375-1495 (Online)
Publisher: AIMS Press
Country of publisher: United States
LCC subjects: Technology: Chemical technology: Chemical engineering; Technology: Chemical technology: Biotechnology; Medicine: Medicine (General): Medical technology
Website: http://www.aimspress.com/journal/Bioengineering

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