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From Soft to Hard Biomimetic Materials: Tuning Micro/Nano-Architecture of Scaffolds for Tissue Regeneration
From Soft to Hard Biomimetic Materials: Tuning Micro/Nano-Architecture of Scaffolds for Tissue Regeneration
by Tamburri, Emanuela , Teodori, Laura , Politi, Sara , Carotenuto, Felicia , Di Nardo, Paolo , De Matteis, Fabio , Pasquo, Alessandra , Terranova, Maria Letizia , Ul Haq, Arsalan
in Adhesion / architectural features / Architecture / Biological effects / Biomedical materials / Biomimetic materials / cardiac muscular regeneration / Cartilage / cartilage regeneration / Collagen / Extracellular matrix / Gene expression / Genotype & phenotype / Hydroxyapatite / Mechanical properties / micro/nanostructured biomaterials / Morphology / Muscles / Nanostructure / Optimization / Organs / Pore size / Proteins / Regeneration (physiology) / Review / Scaffolds / Tissue engineering / tissue regeneration / Topography
2022
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From Soft to Hard Biomimetic Materials: Tuning Micro/Nano-Architecture of Scaffolds for Tissue Regeneration
by Tamburri, Emanuela , Teodori, Laura , Politi, Sara , Carotenuto, Felicia , Di Nardo, Paolo , De Matteis, Fabio , Pasquo, Alessandra , Terranova, Maria Letizia , Ul Haq, Arsalan
in Adhesion / architectural features / Architecture / Biological effects / Biomedical materials / Biomimetic materials / cardiac muscular regeneration / Cartilage / cartilage regeneration / Collagen / Extracellular matrix / Gene expression / Genotype & phenotype / Hydroxyapatite / Mechanical properties / micro/nanostructured biomaterials / Morphology / Muscles / Nanostructure / Optimization / Organs / Pore size / Proteins / Regeneration (physiology) / Review / Scaffolds / Tissue engineering / tissue regeneration / Topography
2022
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From Soft to Hard Biomimetic Materials: Tuning Micro/Nano-Architecture of Scaffolds for Tissue Regeneration
From Soft to Hard Biomimetic Materials: Tuning Micro/Nano-Architecture of Scaffolds for Tissue Regeneration
by Tamburri, Emanuela , Teodori, Laura , Politi, Sara , Carotenuto, Felicia , Di Nardo, Paolo , De Matteis, Fabio , Pasquo, Alessandra , Terranova, Maria Letizia , Ul Haq, Arsalan
in Adhesion / architectural features / Architecture / Biological effects / Biomedical materials / Biomimetic materials / cardiac muscular regeneration / Cartilage / cartilage regeneration / Collagen / Extracellular matrix / Gene expression / Genotype & phenotype / Hydroxyapatite / Mechanical properties / micro/nanostructured biomaterials / Morphology / Muscles / Nanostructure / Optimization / Organs / Pore size / Proteins / Regeneration (physiology) / Review / Scaffolds / Tissue engineering / tissue regeneration / Topography
2022

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Mohammed Bin Rashid Library /
Catalogue /
From Soft to Hard Biomimetic Materials: Tuning Micro/Nano-Architecture of Scaffolds for Tissue Regeneration
From Soft to Hard Biomimetic Materials: Tuning Micro/Nano-Architecture of Scaffolds for Tissue Regeneration
Journal Article

From Soft to Hard Biomimetic Materials: Tuning Micro/Nano-Architecture of Scaffolds for Tissue Regeneration

Tamburri, Emanuela,
Teodori, Laura,
Politi, Sara,
Carotenuto, Felicia,
Di Nardo, Paolo,
De Matteis, Fabio,
Pasquo, Alessandra,
Terranova, Maria Letizia,
Ul Haq, Arsalan
2022
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Overview
Failure of tissues and organs resulting from degenerative diseases or trauma has caused huge economic and health concerns around the world. Tissue engineering represents the only possibility to revert this scenario owing to its potential to regenerate or replace damaged tissues and organs. In a regeneration strategy, biomaterials play a key role promoting new tissue formation by providing adequate space for cell accommodation and appropriate biochemical and biophysical cues to support cell proliferation and differentiation. Among other physical cues, the architectural features of the biomaterial as a kind of instructive stimuli can influence cellular behaviors and guide cells towards a specific tissue organization. Thus, the optimization of biomaterial micro/nano architecture, through different manufacturing techniques, is a crucial strategy for a successful regenerative therapy. Over the last decades, many micro/nanostructured biomaterials have been developed to mimic the defined structure of ECM of various soft and hard tissues. This review intends to provide an overview of the relevant studies on micro/nanostructured scaffolds created for soft and hard tissue regeneration and highlights their biological effects, with a particular focus on striated muscle, cartilage, and bone tissue engineering applications.
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Publisher
MDPI AG,MDPI
Subject

Adhesion

/ architectural features

/ Architecture

/ Biological effects

/ Biomedical materials

/ Biomimetic materials

/ cardiac muscular regeneration

/ Cartilage

/ cartilage regeneration

/ Collagen

/ Extracellular matrix

/ Gene expression

/ Genotype & phenotype

/ Hydroxyapatite

/ Mechanical properties

/ micro/nanostructured biomaterials

/ Morphology

/ Muscles

/ Nanostructure

/ Optimization

/ Organs

/ Pore size

/ Proteins

/ Regeneration (physiology)

/ Review

/ Scaffolds

/ Tissue engineering

/ tissue regeneration

/ Topography

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