Engineered conducting polymer-based scaffolds for cell release and capture

Conducting polymer-based devices and scaffolds has become remarkably popular due to their properties such as conductivity, tunable electrochemical properties, and straightforward fabrication procedures. Hence, they have versatile applications and can be used as implants, biosensors, cell capture/rel...

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Bibliographic Details
Published inInternational journal of polymeric materials Vol. 72; no. 11; pp. 805 - 816
Main Authors Mahdavi, S. Sharareh, Abdekhodaie, Mohammad J.
Format Journal Article
LanguageEnglish
Published Philadelphia Taylor & Francis 24.07.2023
Taylor & Francis Ltd
Subjects
Biomedical engineering
Biomimetic
Biosensors
cell capture
cellular response
Conducting polymers
conductive polymers
Electrochemical analysis
electrochemical properties
Physical properties
Scaffolds
Substrates
tissue-engineered scaffold
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Summary:Conducting polymer-based devices and scaffolds has become remarkably popular due to their properties such as conductivity, tunable electrochemical properties, and straightforward fabrication procedures. Hence, they have versatile applications and can be used as implants, biosensors, cell capture/release devices, and regenerative medicine scaffolds. This review addresses the effect of conductive polymers on cell behavior since their conductive features can be applied to simulate a cellular response. Moreover, the impact of polymer chemical and physical properties on cellular response has been discussed. Recent biomedical engineering approaches used for cell capture and release were reviewed and summarized into different categories. The impact of conductive polymer-based substrates on cell capture and release yield has also been argued.
ISSN:0091-4037
1563-535X
DOI:10.1080/00914037.2022.2060219