2020
DOI: 10.1039/c9bm01965k
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The electrospinning of a thermo-responsive polymer with peptide conjugates for phenotype support and extracellular matrix production of therapeutically relevant mammalian cells

Abstract: The fabrication and application of a biocompatible peptide conjugated thermo-responsive fibrous scaffolds for cellular phenotype support and enzymatic-free passaging of mammalian cells.

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Cited by 6 publications
(7 citation statements)
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“…[ 109 ] On the other hand, the blending of PDEGMA with PLA reveals an excellent potential for producing temperature‐responsive fibrous architectures. [ 110 ]…”
Section: Thermoresponsive Electrospun Fibersmentioning
confidence: 99%
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“…[ 109 ] On the other hand, the blending of PDEGMA with PLA reveals an excellent potential for producing temperature‐responsive fibrous architectures. [ 110 ]…”
Section: Thermoresponsive Electrospun Fibersmentioning
confidence: 99%
“…The LCST‐type behavior of PDEGMA enabled the detachment of adherent hCSCs cells from the scaffold when placed at 4 °C for 30 min as a consequence of scaffold swelling, thus avoiding the use of enzymatic treatments for cell passaging that can reduce cell quality. [ 110 ] In another example, erythrocytes from blood were selectively captured by a mesh of core/shell fibers of PCL/crosslinked PNIPAAm conjugated with bovine serum albumin (BSA), thanks to the establishment of hydrophobic interactions between fibers and cells at 37 °C, whereas at 25 °C the hydrophilic surface of nanofibers determines the release of erythrocytes. [ 116 ] Additionally, thermoresponsive P(NIPAAm‐ co ‐NMA) electrospun fibers have been combined with electrically conductive Ag particles in order to create devices able to generate an electrical response to temperature variations, suitable for the design and fabrication of wearable healthcare electronics.…”
Section: Thermoresponsive Electrospun Fibersmentioning
confidence: 99%
“…MSCs have been demonstrated to attach and proliferate effectively on these scaffolds, and when applied to the cornea aid healing and regeneration 78,108 . Further modification to allow for the possibility of cell detachment has also been explored with thermoresponsive, electrospun scaffolds for the culture of C‐MSCs 109,110 . However, the invasive procedure of suturing the scaffold to the ocular surface seems unfavorable compared to nonsurgical alternatives.…”
Section: Application Of Mscs To the Ocular Surface: Topical Vs Alternmentioning
confidence: 99%
“…In the biomedical field, the diameter of electrospun nanofibers is less than that of cells and can simulate the structure and biological function of the natural extracellular matrix. 7,8 Mingling biomolecules into scaffold interiors can be gained by directly mixing the biomolecules in a polymer solution during the electrospinning process (i.e. blend electrospinning) and provides bioactive scaffolds with an initial burst release followed by sustained release.…”
Section: Introductionmentioning
confidence: 99%