Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics

Polymeric hydrogels are fascinating platforms as 3D scaffolds for tissue repair and delivery systems of therapeutic molecules and cells. Among others, methacrylated gelatin (GelMA) has become a representative hydrogel formulation, finding various biomedical applications. Recent efforts on GelMA-base...

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Autores principales: Amal George Kurian, Rajendra K. Singh, Kapil D. Patel, Jung-Hwan Lee, Hae-Won Kim
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Lenguaje:EN
Publicado: KeAi Communications Co., Ltd. 2022
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Acceso en línea:https://doaj.org/article/81bf0b5e6b234dc6a30d7fa76a092361
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spelling oai:doaj.org-article:81bf0b5e6b234dc6a30d7fa76a0923612021-11-04T04:35:56ZMultifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics2452-199X10.1016/j.bioactmat.2021.06.027https://doaj.org/article/81bf0b5e6b234dc6a30d7fa76a0923612022-02-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2452199X21003133https://doaj.org/toc/2452-199XPolymeric hydrogels are fascinating platforms as 3D scaffolds for tissue repair and delivery systems of therapeutic molecules and cells. Among others, methacrylated gelatin (GelMA) has become a representative hydrogel formulation, finding various biomedical applications. Recent efforts on GelMA-based hydrogels have been devoted to combining them with bioactive and functional nanomaterials, aiming to provide enhanced physicochemical and biological properties to GelMA. The benefits of this approach are multiple: i) reinforcing mechanical properties, ii) modulating viscoelastic property to allow 3D printability of bio-inks, iii) rendering electrical/magnetic property to produce electro-/magneto-active hydrogels for the repair of specific tissues (e.g., muscle, nerve), iv) providing stimuli-responsiveness to actively deliver therapeutic molecules, and v) endowing therapeutic capacity in tissue repair process (e.g., antioxidant effects). The nanomaterial-combined GelMA systems have shown significantly enhanced and extraordinary behaviors in various tissues (bone, skin, cardiac, and nerve) that are rarely observable with GelMA. Here we systematically review these recent efforts in nanomaterials-combined GelMA hydrogels that are considered as next-generation multifunctional platforms for tissue therapeutics. The approaches used in GelMA can also apply to other existing polymeric hydrogel systems.Amal George KurianRajendra K. SinghKapil D. PatelJung-Hwan LeeHae-Won KimKeAi Communications Co., Ltd.articleGelMA hydrogelNanomaterialsMultifunctionalTherapeuticsTissue repairMaterials of engineering and construction. Mechanics of materialsTA401-492Biology (General)QH301-705.5ENBioactive Materials, Vol 8, Iss , Pp 267-295 (2022)
institution DOAJ
collection DOAJ
language EN
topic GelMA hydrogel
Nanomaterials
Multifunctional
Therapeutics
Tissue repair
Materials of engineering and construction. Mechanics of materials
TA401-492
Biology (General)
QH301-705.5
spellingShingle GelMA hydrogel
Nanomaterials
Multifunctional
Therapeutics
Tissue repair
Materials of engineering and construction. Mechanics of materials
TA401-492
Biology (General)
QH301-705.5
Amal George Kurian
Rajendra K. Singh
Kapil D. Patel
Jung-Hwan Lee
Hae-Won Kim
Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics
description Polymeric hydrogels are fascinating platforms as 3D scaffolds for tissue repair and delivery systems of therapeutic molecules and cells. Among others, methacrylated gelatin (GelMA) has become a representative hydrogel formulation, finding various biomedical applications. Recent efforts on GelMA-based hydrogels have been devoted to combining them with bioactive and functional nanomaterials, aiming to provide enhanced physicochemical and biological properties to GelMA. The benefits of this approach are multiple: i) reinforcing mechanical properties, ii) modulating viscoelastic property to allow 3D printability of bio-inks, iii) rendering electrical/magnetic property to produce electro-/magneto-active hydrogels for the repair of specific tissues (e.g., muscle, nerve), iv) providing stimuli-responsiveness to actively deliver therapeutic molecules, and v) endowing therapeutic capacity in tissue repair process (e.g., antioxidant effects). The nanomaterial-combined GelMA systems have shown significantly enhanced and extraordinary behaviors in various tissues (bone, skin, cardiac, and nerve) that are rarely observable with GelMA. Here we systematically review these recent efforts in nanomaterials-combined GelMA hydrogels that are considered as next-generation multifunctional platforms for tissue therapeutics. The approaches used in GelMA can also apply to other existing polymeric hydrogel systems.
format article
author Amal George Kurian
Rajendra K. Singh
Kapil D. Patel
Jung-Hwan Lee
Hae-Won Kim
author_facet Amal George Kurian
Rajendra K. Singh
Kapil D. Patel
Jung-Hwan Lee
Hae-Won Kim
author_sort Amal George Kurian
title Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics
title_short Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics
title_full Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics
title_fullStr Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics
title_full_unstemmed Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics
title_sort multifunctional gelma platforms with nanomaterials for advanced tissue therapeutics
publisher KeAi Communications Co., Ltd.
publishDate 2022
url https://doaj.org/article/81bf0b5e6b234dc6a30d7fa76a092361
work_keys_str_mv AT amalgeorgekurian multifunctionalgelmaplatformswithnanomaterialsforadvancedtissuetherapeutics
AT rajendraksingh multifunctionalgelmaplatformswithnanomaterialsforadvancedtissuetherapeutics
AT kapildpatel multifunctionalgelmaplatformswithnanomaterialsforadvancedtissuetherapeutics
AT junghwanlee multifunctionalgelmaplatformswithnanomaterialsforadvancedtissuetherapeutics
AT haewonkim multifunctionalgelmaplatformswithnanomaterialsforadvancedtissuetherapeutics
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