Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces

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Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces Publisher

Manouchehri S¹ ; Bagheri B² ; Rad SH³ ; Nezhad MN⁴ ; Kim YC² ; Park OO² ; Farokhi M⁵ ; Jouyandeh M^{6, 7} ; Ganjali MR^{6, 9} ; Yazdi MK¹ ; Zarrintaj P^{3, 6, 8} ; Saeb MR^{6, 8, 10}

Source: Progress in Organic Coatings Published:2019

Abstract

Neural electrodes have opened new horizon in neuroscience which discover the new aspect of neural and brain behavior. Neural electrodes are usually fabricated using metals. Metals cause chronic inflammation in long term due to mechanical mismatch with soft tissue. In this regards, hydrogel based coating has been proposed to regulate the modulus. Electroactive hydrogel coating because of the similar modulus with brain, proper biocompatibility and low impedance can be used as proper coating for neural interface. In this work, the electroactive epoxidized chitosan was firstly synthesized and studied for electroactivity using cyclic voltammetry and UV–vis. Cyclic voltammetry diagram exhibited two redox peak between 0.38 and 0.8 related to oxidation/reduction transient; In addition, UV–vis spectra exhibited π-π* transition and benzenoid to quinoid excitonic transition around 330 nm and 620 nm, respectively. Swelling ratio of the electroactive epoxidized chitosan was decreased 150% compared to electroactive one (500%). The hydrophobic oligoaniline decreased the swelling ratio and hindered the water molecule diffusion within the hydrogel structure. Hence, the degradation rate was decreased by enhancing the oligoaniline content. Electroactive coating showed the lower impedance compared to isolated one. Moreover, the electroactive substrate exhibited more cell proliferation because of its conductive nature which enhanced the PC12 cells activity. This study introduced the novel hydrogel based on electroactive coating, which can be potentially used as a neural electrode coating and pave a way for architecting new coating for biomedical devices. © 2019 Elsevier B.V.

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Style	Citing Format
MLA	Manouchehri S, et al.. "Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces." Progress in Organic Coatings, vol. 131, no. , 2019, pp. 389-396.
APA	Manouchehri S, Bagheri B, Rad SH, Nezhad MN, Kim YC, Park OO, Farokhi M, Jouyandeh M, Ganjali MR, Yazdi MK, Zarrintaj P, Saeb MR (2019). Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces. Progress in Organic Coatings, 131(), 389-396.
Chicago	Manouchehri S, Bagheri B, Rad SH, Nezhad MN, Kim YC, Park OO, Farokhi M, et al.. "Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces." Progress in Organic Coatings 131, no. (2019): 389-396.
Harvard	Manouchehri S et al. (2019) 'Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces', Progress in Organic Coatings, 131(), pp. 389-396.
Vancouver	Manouchehri S, Bagheri B, Rad SH, Nezhad MN, Kim YC, Park OO, et al.. Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces. Progress in Organic Coatings. 2019;131():389-396.
BibTex	@article{ author = {Manouchehri S and Bagheri B and Rad SH and Nezhad MN and Kim YC and Park OO and Farokhi M and Jouyandeh M and Ganjali MR and Yazdi MK and Zarrintaj P and Saeb MR}, title = {Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces}, journal = {Progress in Organic Coatings}, volume = {131}, number = {}, pages = {389-396}, year = {2019} }
RIS	TY - JOUR AU - Manouchehri S AU - Bagheri B AU - Rad SH AU - Nezhad MN AU - Kim YC AU - Park OO AU - Farokhi M AU - Jouyandeh M AU - Ganjali MR AU - Yazdi MK AU - Zarrintaj P AU - Saeb MR TI - Electroactive Bio-Epoxy Incorporated Chitosan-Oligoaniline As an Advanced Hydrogel Coating for Neural Interfaces JO - Progress in Organic Coatings VL - 131 IS - SP - 389 EP - 396 PY - 2019 ER -

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