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International Journal of Polymeric Materials and Polymeric Biomaterials Volume 69, 2020 - Issue 17
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Articles

Liver tissue engineering via hyperbranched polypyrrole scaffolds

Maryam HatamzadehDepartment of Chemistry, Payame Noor University, Tehran, Iran;
,
Raana SarvariStem Cell Research Center, Tabriz University of Medical Sciences, Tabriz, Iran; ;Stem Cell And Regenerative Medicine Institute, Tabriz University of Medical Sciences, Tabriz, Iran; Correspondence[email protected]
,
Bakhshali MassoumiDepartment of Chemistry, Payame Noor University, Tehran, Iran; Correspondence[email protected]
,
Samira AgbolaghiChemical Engineering Department, Faculty of Engineering, Azarbaijan Shahid Madani University, Tabriz, Iran
&
Fatemeh SamadianChemical Engineering Department, Faculty of Engineering, Azarbaijan Shahid Madani University, Tabriz, Iran
Pages 1112-1122 | Received 29 Apr 2019, Accepted 11 Sep 2019, Published online: 26 Sep 2019
 
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Abstract

Synthesis of novel hyperbranched aliphatic polyester/polypyrrole (HAP-PPy) is reported to incorporate electroactive PPy units and biodegradable ester units into one macromolecular configuration. Electroactive nanofibers were prepared from HAP-PPy blended with polycaprolactone. HAP-PPy exhibited redox activity as detected by cyclic voltammetry, and thereby pyrrole units maintained their electroactivity even after incorporation into copolymer framework. Resulting scaffolds possessed porous structure (60–90 nm) with large surface area, electrical conductivity (0.003–0.008 S cm−1). These imitated natural microenvironment of extracellular matrix (ECM) to regulate cell attachment, proliferation, and differentiation. In vitro cytocompatibility studies indicated that nanofibers were nontoxic to human HEP G2 cells.

Graphical Abstract

Acknowledgment

We express our gratitude to the Payame Noor and Azarbaijan Shahid Madani Universities.

Disclosure statement

No potential conflict of interest was reported by the authors.

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