Nanofiber Research - Reaching New Heights 2016
DOI: 10.5772/63707
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Nanofibrous Scaffolds as Promising Cell Carriers for Tissue Engineering

Abstract: Nanofibers are promising cell carriers for tissue engineering of a variety of tissues and organs in the human organism. They have been experimentally used for reconstruction of tissues of cardiovascular, respiratory, digestive, urinary, nervous and musculoskeletal systems. Nanofibers are also promising for drug and gene delivery, construction of biosensors and biostimulators, and wound dressings. Nanofibers can be created from a wide range of natural polymers or synthetic biostable and biodegradable polymers. … Show more

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Cited by 5 publications
(7 citation statements)
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“…They are considered regulators of cell differentiation and maintenance of the phenotype of implanted cells, 21,22 while through their negatively charged chains they can act as reservoirs for GFs and chemokines that finely control their release and therefore cell signaling 23 . Among GAGs, HS, heparin, and CS have a well‐documented use as components of nanofibers for skin tissue engineering applications 22 . Heparin has the highest negative charge density of any biological macromolecule providing high affinity for growth factors (GFs), such as fibroblast growth factors and other factors important for wound healing 24,25 .…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…They are considered regulators of cell differentiation and maintenance of the phenotype of implanted cells, 21,22 while through their negatively charged chains they can act as reservoirs for GFs and chemokines that finely control their release and therefore cell signaling 23 . Among GAGs, HS, heparin, and CS have a well‐documented use as components of nanofibers for skin tissue engineering applications 22 . Heparin has the highest negative charge density of any biological macromolecule providing high affinity for growth factors (GFs), such as fibroblast growth factors and other factors important for wound healing 24,25 .…”
Section: Introductionmentioning
confidence: 99%
“…GAGs are widely used in tissue engineering constructs to recapitulate the ECM. They are considered regulators of cell differentiation and maintenance of the phenotype of implanted cells, 21,22 while through their negatively charged chains they can act as reservoirs for GFs and chemokines that finely control their release and therefore cell signaling 23 . Among GAGs, HS, heparin, and CS have a well‐documented use as components of nanofibers for skin tissue engineering applications 22 .…”
Section: Introductionmentioning
confidence: 99%
“…Cold plasma treatment of polymer nanofibers was greatly described as a clean and environmentally friendly technique to improve nanofibers biocompatibility for use in biomedical and tissue engineering domains. The importance of surface chemistry on biocompatibility and cell behavior was largely described in the literature. In this sense, Thevenot et al summarized the effect of classical chemical functions grafted onto the surface of biomaterials on their biological properties .…”
Section: Introductionmentioning
confidence: 99%
“…Nanofibrous scaffolds are one of the most promising materials for skin tissue engineering and wound dressing, because they resemble nanoarchitecture of the native extracellular matrix (for a review, see [1]). Therefore, they can serve as suitable carriers of cells for tissue engineering and also as suitable wound dressings, which are able to protect the wound from external harmful effects, mainly Scanning electron microscopy of nanofibrous layers produced by wire needleless electrospinning using different solvents, namely 12 wt% of CA in acetone/DMAC (9:1) (left) or 14 wt% of CA in 95% AA (right).…”
Section: Introductionmentioning
confidence: 99%