HUMPOLÍČEK, Petr, Katarzyna Anna RADASZKIEWICZ, Věra KAŠPÁRKOVÁ, Jaroslav STEJSKAL, Miroslava TRCHOVÁ, Zdenka KUCEKOVÁ, Hana VIČAROVÁ, Jiří PACHERNÍK, Marián LEHOCKÝ and Antonín MINAŘÍK. Stem Cell Differentiation on Conducting Polyaniline. RSC Advances. Cambridge: Royal Society of Chemistry, 2015, vol. 5, No 84, p. 68796-68805. ISSN 2046-2069. Available from: https://dx.doi.org/10.1039/C5RA12218J.
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Basic information
Original name Stem Cell Differentiation on Conducting Polyaniline
Authors HUMPOLÍČEK, Petr (203 Czech Republic, guarantor), Katarzyna Anna RADASZKIEWICZ (616 Poland, belonging to the institution), Věra KAŠPÁRKOVÁ (203 Czech Republic), Jaroslav STEJSKAL (203 Czech Republic), Miroslava TRCHOVÁ (203 Czech Republic), Zdenka KUCEKOVÁ (203 Czech Republic), Hana VIČAROVÁ (203 Czech Republic, belonging to the institution), Jiří PACHERNÍK (203 Czech Republic, belonging to the institution), Marián LEHOCKÝ (703 Slovakia) and Antonín MINAŘÍK (203 Czech Republic).
Edition RSC Advances, Cambridge, Royal Society of Chemistry, 2015, 2046-2069.
Other information
Original language English
Type of outcome Article in a journal
Field of Study 10404 Polymer science
Country of publisher United Kingdom of Great Britain and Northern Ireland
Confidentiality degree is not subject to a state or trade secret
WWW URL
Impact factor Impact factor: 3.289
RIV identification code RIV/00216224:14310/15:00087513
Organization unit Faculty of Science
Doi http://dx.doi.org/10.1039/C5RA12218J
UT WoS 000359568400070
Keywords (in Czech) Polyanilin; kmenove buňky
Keywords in English Polyaniline; stem cells
Tags International impact, Reviewed
Changed by Changed by: Mgr. Marie Šípková, DiS., učo 437722. Changed: 18/6/2020 11:18.
Abstract
Polyaniline is a promising conducting polymer with broad application potential in biomedicine. Its medical use, however, requires both biocompatibility and suitable physico-chemical and surface properties. The microstructure, electrical properties, and surface characteristics of polyaniline salt, polyaniline base, and polyaniline deposited with biologically active poly(2-acrylamido-2-methyl-1-propanesulfonic acid) were revealed using atomic force microscopy, contact angle measurements, and Raman spectroscopy. As conducting polymers can be preferentially applied in tissue engineering of heart and nervous tissues, the cardiomyogenesis in pure cardiomyocytes derived from embryonic stem cells and neurogenesis in neural progenitors isolated from embryonal 13 dpc brain were further investigated. The results show that neither cardiomyogenesis nor neurogenesis were influenced by any of the tested polyaniline films. However, the most favorable cell behaviour was observed on pristine polyaniline base; therefore, polyaniline in pristine forms without any further modification can be applied in a variety of biomedical fields.
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