Publication detail
Exploration of the potential for nanostructured hydrogel surface in prevention of cell upregulating cytoskeletal structures and loosing transparency
ŠURÁŇOVÁ, M. ČERNÁ, E. KRAJŇÁK, T. VOJTOVÁ, L. ŠAMOŘIL, T. VESELÝ, P. CHMELÍK, R. ZICHA, D.
English title
Exploration of the potential for nanostructured hydrogel surface in prevention of cell upregulating cytoskeletal structures and loosing transparency
Type
Presentation, poster
Language
en
Original abstract
For the proposed IOL, we use lithography to create a nanostructured form with pyramid depressions. The form is then used to mold PHEMA and then we visualize the PHEMA surface with AFM to confirm that the material is suitable for the nanostructure.
Keywords in English
PHEMA, secondary cataract, nanosurface, AFM, intraocular lens
Released
2021-11-04
Publisher
Journal of Physical Chemistry & Biophysics, ISSN 2155-9570
Pages from–to
50–51
Pages count
60
BIBTEX
@misc{BUT173055,
author="Markéta {Šuráňová} and Eva {Černá} and Tomáš {Krajňák} and Lucy {Vojtová} and Tomáš {Šamořil} and Pavel {Veselý} and Radim {Chmelík} and Daniel {Zicha}",
title="Exploration of the potential for nanostructured hydrogel surface in prevention of cell
upregulating cytoskeletal structures and loosing transparency",
year="2021",
pages="50--51",
publisher="Journal of Physical Chemistry & Biophysics, ISSN 2155-9570",
doi="10.4172/2161-0398",
url="https://www.longdom.org/proceedings/exploration-of-the-potential-for-nanostructured-hydrogel-surface-in-prevention-of-cell-upregulating-cytoskeletal-structu-59853.html"
}