Development of multi-functional neural electrode with the use of conducting polymer

Currently, one thousand million people suffer from neurological issues, such as epilepsy, Alzheimer’s and Parkinson’s diseases, migraines, sclerosis, or neural infections. In most cases, restoration of the neural path can be done by the introduction of electrodes within the neural tissue. Nowadays, the market of neural electrodes is mainly based on pure metals such as gold or platinum. The metals reveal plane rigid structure, which integrates poorly with the tissue environment. This, in turn, leads to degeneration of signal transmission and the effective lifetime of the electrode becomes limited. Modulation of the interfacing electrode by nanostructured material such as conducting polymer coating has recently become an attractive option for providing efficient signal transmission for neural application. Because of this, the main aim of the proposal is to develop a multifunctional PEDOT-based electrode for neural tissue interface. The studies will include the fabrication and investigation of PEDOT-based electrode toward its electronic and chemical neural interface. The effect of three main conditions will be examined during the fabrication process: type of the polymer synthesis (electrodeposition, drop-casting), a form of the synthesized polymer coating (solid film, hydrogel), and type of the electrode substrate (rigid, flexible). The chemical interface of the specified PEDOT electrodes will be modified by the introduction of an antiinflammatory drug reservoir. The drug release profile of each electrode during the electrode stimulation will be examined. The stability profile of PEDOT electrodes during its stimulation will be investigated. The stability mechanism will be proposed and discussed. Biological characterization of the electrodes will be evaluated in the presence of neural human cell lines. The project will allow for the performance of important research, the results of which will be gradually published in the peer-reviewed JCR journals. The results of the project will be presented at different international and national conferences. Moreover, the ongoing project will allow for the purchase of new equipment and laboratory accessories.

Details

Financial Program Name:

SONATA

Organization:

Narodowe Centrum Nauki (NCN) (National Science Centre)

Agreement:

UMO-2021/43/D/ST7/01362 z dnia 2022-09-01

Realisation period:

2022-09-01 - 2025-08-31

Project manager:

dr inż. Karolina Cysewska

Team members:

Postdoc dr Mohammad Taghi Tourchi Moghadam
Student scholarship Natalia Zalewska
Student scholarship Matthias Nawrocki

Realised in:

Laboratorium Materiałów Funkcjonalnych ETI

Project's value:

1 509 506.00 PLN

Request type:

National Research Programmes

Domestic:

Domestic project

Verified by:

Gdańsk University of Technology

Papers associated with that project

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total: 2

Year 2024

A simple route of providing a soft interface for PEDOT: PSS film metallic electrodes without loss of their electrical interface parameters
Publication
- K. Cysewska
- S. Pawłowska
- ELECTROCHIMICA ACTA - Year 2024
The work presents the development of a soft interface at PEDOT:PSS film without changing its electrical interface parameters. In the first step, PEDOT:PSS is electrodeposited on the commercial platinum electrode under the state-of-the-art conditions desirable for different electrochemical electrodes. Secondly, a pure hydrogel layer is deposited on the top of the electrodeposited PEDOT:PSS film under conditions that provide desirable...

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Electrical Interface Parameters of PEDOT: PSS: Effect of Electrodeposition Charge Evaluated Under Body Conditions for Neural Electrode Applications
Publication
- M. T. Tourchi Moghadam
- K. Cysewska
- JOURNAL OF THE ELECTROCHEMICAL SOCIETY - Year 2024
This study explores the influence of the deposition charge of poly(3,4-ethylenedioxythiophene) doped with polystyrene sulfonate (PEDOT:PSS) on its electrical interface parameters. For this purpose, PEDOT:PSS was fabricated by electrodeposition on commercial platinum electrodes with the time limited by different charges (1, 3, 6, 9 mC). Further, the electrodes were characterized regarding their electrical interface such as interfacial...

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