Hydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering

Injuries of the bone/cartilage and central nervous system are still a serious socio-economic problem. They are an effect of diversified, difficult-to-access tissue structures as well as complex regeneration mechanisms. Currently, commercially available materials partially solve this problem, but the...

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Autores principales:	Beata Niemczyk-Soczynska, Angelika Zaszczyńska, Konrad Zabielski, Pawel Sajkiewicz
Formato:	article
Lenguaje:	EN
Publicado:	MDPI AG 2021
Materias:	scaffolds tissue engineering polymers electrospun nanofibers hydrogels nanoparticles Technology T Electrical engineering. Electronics. Nuclear engineering TK1-9971 Engineering (General). Civil engineering (General) TA1-2040 Microscopy QH201-278.5 Descriptive and experimental mechanics QC120-168.85
Acceso en línea:	https://doaj.org/article/7f8e4f2859f74c5aa6ef784dde18b3aa
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spelling	oai:doaj.org-article:7f8e4f2859f74c5aa6ef784dde18b3aa2021-11-25T18:14:33ZHydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering10.3390/ma142268991996-1944https://doaj.org/article/7f8e4f2859f74c5aa6ef784dde18b3aa2021-11-01T00:00:00Zhttps://www.mdpi.com/1996-1944/14/22/6899https://doaj.org/toc/1996-1944Injuries of the bone/cartilage and central nervous system are still a serious socio-economic problem. They are an effect of diversified, difficult-to-access tissue structures as well as complex regeneration mechanisms. Currently, commercially available materials partially solve this problem, but they do not fulfill all of the bone/cartilage and neural tissue engineering requirements such as mechanical properties, biochemical cues or adequate biodegradation. There are still many things to do to provide complete restoration of injured tissues. Recent reports in bone/cartilage and neural tissue engineering give high hopes in designing scaffolds for complete tissue regeneration. This review thoroughly discusses the advantages and disadvantages of currently available commercial scaffolds and sheds new light on the designing of novel polymeric scaffolds composed of hydrogels, electrospun nanofibers, or hydrogels loaded with nano-additives.Beata Niemczyk-SoczynskaAngelika ZaszczyńskaKonrad ZabielskiPawel SajkiewiczMDPI AGarticlescaffoldstissue engineeringpolymerselectrospun nanofibershydrogelsnanoparticlesTechnologyTElectrical engineering. Electronics. Nuclear engineeringTK1-9971Engineering (General). Civil engineering (General)TA1-2040MicroscopyQH201-278.5Descriptive and experimental mechanicsQC120-168.85ENMaterials, Vol 14, Iss 6899, p 6899 (2021)
institution	DOAJ
collection	DOAJ
language	EN
topic	scaffolds tissue engineering polymers electrospun nanofibers hydrogels nanoparticles Technology T Electrical engineering. Electronics. Nuclear engineering TK1-9971 Engineering (General). Civil engineering (General) TA1-2040 Microscopy QH201-278.5 Descriptive and experimental mechanics QC120-168.85
spellingShingle	scaffolds tissue engineering polymers electrospun nanofibers hydrogels nanoparticles Technology T Electrical engineering. Electronics. Nuclear engineering TK1-9971 Engineering (General). Civil engineering (General) TA1-2040 Microscopy QH201-278.5 Descriptive and experimental mechanics QC120-168.85 Beata Niemczyk-Soczynska Angelika Zaszczyńska Konrad Zabielski Pawel Sajkiewicz Hydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering
description	Injuries of the bone/cartilage and central nervous system are still a serious socio-economic problem. They are an effect of diversified, difficult-to-access tissue structures as well as complex regeneration mechanisms. Currently, commercially available materials partially solve this problem, but they do not fulfill all of the bone/cartilage and neural tissue engineering requirements such as mechanical properties, biochemical cues or adequate biodegradation. There are still many things to do to provide complete restoration of injured tissues. Recent reports in bone/cartilage and neural tissue engineering give high hopes in designing scaffolds for complete tissue regeneration. This review thoroughly discusses the advantages and disadvantages of currently available commercial scaffolds and sheds new light on the designing of novel polymeric scaffolds composed of hydrogels, electrospun nanofibers, or hydrogels loaded with nano-additives.
format	article
author	Beata Niemczyk-Soczynska Angelika Zaszczyńska Konrad Zabielski Pawel Sajkiewicz
author_facet	Beata Niemczyk-Soczynska Angelika Zaszczyńska Konrad Zabielski Pawel Sajkiewicz
author_sort	Beata Niemczyk-Soczynska
title	Hydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering
title_short	Hydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering
title_full	Hydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering
title_fullStr	Hydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering
title_full_unstemmed	Hydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering
title_sort	hydrogel, electrospun and composite materials for bone/cartilage and neural tissue engineering
publisher	MDPI AG
publishDate	2021
url	https://doaj.org/article/7f8e4f2859f74c5aa6ef784dde18b3aa
work_keys_str_mv	AT beataniemczyksoczynska hydrogelelectrospunandcompositematerialsforbonecartilageandneuraltissueengineering AT angelikazaszczynska hydrogelelectrospunandcompositematerialsforbonecartilageandneuraltissueengineering AT konradzabielski hydrogelelectrospunandcompositematerialsforbonecartilageandneuraltissueengineering AT pawelsajkiewicz hydrogelelectrospunandcompositematerialsforbonecartilageandneuraltissueengineering
_version_	1718411447192518656

Hydrogel, Electrospun and Composite Materials for Bone/Cartilage and Neural Tissue Engineering

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