Staff View: Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review

Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review

Scaffolds support and promote the formation of new functional tissues through cellular interactions with living cells. Various types of scaffolds have found their way into biomedical science, particularly in tissue engineering. Scaffolds with a superior tissue regenerative capacity must be biocompat...

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Main Authors:	Ahmad Ruzaidi, Dania Adila, Mahat, Mohd Muzamir, Shafiee, Saiful Arifin, Mohamed Sofian, Zarif, Mohmad Sabere, Awis Sukarni, Ramli, Rosmamuhamadani, Osman, Hazwanee, Hamzah, Hairul Hisham, Zainal Ariffin, Zaidah, Sadasivuni, Kishor Kumar
Format:	Article
Published:	MDPI 2021
Subjects:	R Medicine RA Public aspects of medicine RS Pharmacy and materia medica
Online Access:	http://eprints.um.edu.my/34314/
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spelling	my.um.eprints.343142022-06-15T08:01:58Z http://eprints.um.edu.my/34314/ Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review Ahmad Ruzaidi, Dania Adila Mahat, Mohd Muzamir Shafiee, Saiful Arifin Mohamed Sofian, Zarif Mohmad Sabere, Awis Sukarni Ramli, Rosmamuhamadani Osman, Hazwanee Hamzah, Hairul Hisham Zainal Ariffin, Zaidah Sadasivuni, Kishor Kumar R Medicine RA Public aspects of medicine RS Pharmacy and materia medica Scaffolds support and promote the formation of new functional tissues through cellular interactions with living cells. Various types of scaffolds have found their way into biomedical science, particularly in tissue engineering. Scaffolds with a superior tissue regenerative capacity must be biocompatible and biodegradable, and must possess excellent functionality and bioactivity. The different polymers that are used in fabricating scaffolds can influence these parameters. Polysaccharide-based polymers, such as collagen and chitosan, exhibit exceptional biocompatibility and biodegradability, while the degradability of synthetic polymers can be improved using chemical modifications. However, these modifications require multiple steps of chemical reactions to be carried out, which could potentially compromise the end product's biosafety. At present, conducting polymers, such as poly(3,4-ethylenedioxythiophene) poly(4-styrenesulfonate) (PEDOT: PSS), polyaniline, and polypyrrole, are often incorporated into matrix scaffolds to produce electrically conductive scaffold composites. However, this will reduce the biodegradability rate of scaffolds and, therefore, agitate their biocompatibility. This article discusses the current trends in fabricating electrically conductive scaffolds, and provides some insight regarding how their immunogenicity performance can be interlinked with their physical and biodegradability properties. MDPI 2021-10 Article PeerReviewed Ahmad Ruzaidi, Dania Adila and Mahat, Mohd Muzamir and Shafiee, Saiful Arifin and Mohamed Sofian, Zarif and Mohmad Sabere, Awis Sukarni and Ramli, Rosmamuhamadani and Osman, Hazwanee and Hamzah, Hairul Hisham and Zainal Ariffin, Zaidah and Sadasivuni, Kishor Kumar (2021) Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review. Polymers, 13 (19). ISSN 2073-4360, DOI https://doi.org/10.3390/polym13193395 <https://doi.org/10.3390/polym13193395>. 10.3390/polym13193395
institution	Universiti Malaya
building	UM Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Universiti Malaya
content_source	UM Research Repository
url_provider	http://eprints.um.edu.my/
topic	R Medicine RA Public aspects of medicine RS Pharmacy and materia medica
spellingShingle	R Medicine RA Public aspects of medicine RS Pharmacy and materia medica Ahmad Ruzaidi, Dania Adila Mahat, Mohd Muzamir Shafiee, Saiful Arifin Mohamed Sofian, Zarif Mohmad Sabere, Awis Sukarni Ramli, Rosmamuhamadani Osman, Hazwanee Hamzah, Hairul Hisham Zainal Ariffin, Zaidah Sadasivuni, Kishor Kumar Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review
description	Scaffolds support and promote the formation of new functional tissues through cellular interactions with living cells. Various types of scaffolds have found their way into biomedical science, particularly in tissue engineering. Scaffolds with a superior tissue regenerative capacity must be biocompatible and biodegradable, and must possess excellent functionality and bioactivity. The different polymers that are used in fabricating scaffolds can influence these parameters. Polysaccharide-based polymers, such as collagen and chitosan, exhibit exceptional biocompatibility and biodegradability, while the degradability of synthetic polymers can be improved using chemical modifications. However, these modifications require multiple steps of chemical reactions to be carried out, which could potentially compromise the end product's biosafety. At present, conducting polymers, such as poly(3,4-ethylenedioxythiophene) poly(4-styrenesulfonate) (PEDOT: PSS), polyaniline, and polypyrrole, are often incorporated into matrix scaffolds to produce electrically conductive scaffold composites. However, this will reduce the biodegradability rate of scaffolds and, therefore, agitate their biocompatibility. This article discusses the current trends in fabricating electrically conductive scaffolds, and provides some insight regarding how their immunogenicity performance can be interlinked with their physical and biodegradability properties.
format	Article
author	Ahmad Ruzaidi, Dania Adila Mahat, Mohd Muzamir Shafiee, Saiful Arifin Mohamed Sofian, Zarif Mohmad Sabere, Awis Sukarni Ramli, Rosmamuhamadani Osman, Hazwanee Hamzah, Hairul Hisham Zainal Ariffin, Zaidah Sadasivuni, Kishor Kumar
author_facet	Ahmad Ruzaidi, Dania Adila Mahat, Mohd Muzamir Shafiee, Saiful Arifin Mohamed Sofian, Zarif Mohmad Sabere, Awis Sukarni Ramli, Rosmamuhamadani Osman, Hazwanee Hamzah, Hairul Hisham Zainal Ariffin, Zaidah Sadasivuni, Kishor Kumar
author_sort	Ahmad Ruzaidi, Dania Adila
title	Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review
title_short	Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review
title_full	Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review
title_fullStr	Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review
title_full_unstemmed	Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review
title_sort	advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: a review
publisher	MDPI
publishDate	2021
url	http://eprints.um.edu.my/34314/
_version_	1738510718254186496
score	13.211869

Advocating electrically conductive scaffolds with low immunogenicity for biomedical applications: A review

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