Repository of Research and Investigative Information

Repository of Research and Investigative Information

Baqiyatallah University of Medical Sciences

A facile route to the synthesis of anilinic electroactive colloidal hydrogels for neural tissue engineering applications

(2018) A facile route to the synthesis of anilinic electroactive colloidal hydrogels for neural tissue engineering applications. Journal of Colloid and Interface Science. pp. 57-66. ISSN 0021-9797

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Abstract

An innovative drug-loaded colloidal hydrogel was synthesized for applications in neural interfaces in tissue engineering by reacting carboxyl capped aniline dimer and gelatin molecules. Dexamethasone was loaded into the gelatin-aniline dimer solution as a model drug to form an in situ drug-loaded colloidal hydrogel. The conductivity of the hydrogel samples fluctuated around 10(-5) S/cm which appeared suitable for cellular activities. Cyclic voltammetry was used for electroactivity determination, in which 2 redox states were observed, suggesting that the short chain length and steric hindrance prevented the gel from achieving a fully oxidized state. Rheological data depicted the modulus decreasing with aniline dimer increment due to limited hydrogen bonds accessibility. Though the swelling ratio of pristine gelatin (600) decreased by the introduction and increasing the concentration of aniline dimer because of its hydrophobic nature, it took the value of 300 at worst, which still seems promising for drug delivery uses. Degradation rate of hydrogel was similarly decreased by adding aniline dimer. Drug release was evaluated in passive and stimulated patterns demonstrating tendency of aniline dimer to form a vesicle that controls the drug release behavior. The optimal cell viability, proper cell attachment and neurite extension was achieved in the case of hydrogel containing 10 wt aniline dimer. Based on tissue/organ behavior, it was promisingly possible to adjust the characteristics of the hydrogels for an optimal drug release. The outcome of this simple and effective approach can potentially offer additional tunable characteristics for recording and stimulating purposes in neural interfaces. (C) 2018 Elsevier Inc. All rights reserved.

Item Type: Article
Keywords: Colloidal hydrogel Tissue engineering Neural interface Aniline oligomer Ionic conductivity Drug release versatile cardiac patch biodegradable polyurethane nanofibrous scaffolds neurite outgrowth drug-delivery castor-oil polyaniline polymers chitosan design Chemistry
Divisions:
Page Range: pp. 57-66
Journal or Publication Title: Journal of Colloid and Interface Science
Journal Index: ISI
Volume: 516
Identification Number: https://doi.org/10.1016/j.jcis.2018.01.044
ISSN: 0021-9797
Depositing User: مهندس مهدی شریفی
URI: http://eprints.bmsu.ac.ir/id/eprint/3827

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