Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber Scaffolds

Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber Scaffolds

Abstract Bioinspired membranes as extracellular matrices are desired for skin regeneration. Herein, we fabricate four systems of fibrillar membranes composed of polycaprolactone (PCL), aminolyzed PCL, denatured collagen type I (C), and the blend of collagen hydrolysate types I and III (bC) or elastin (E), fabricated by the electrospinning process. The superficial features by SEM and optical profilometry, mechanical properties by puncture strength assays, and biological evaluation with a human keratinocyte cell line (HaCaT) for one day of aPCL6bCE (aPCL/collagen hydrolysate type I and III/Elastin), aPCL6CE (aPCL/denaturated Col I/elastin), aPCL6bC (aPCL/collagen hydrolysate type I and III), and PCL6bCE (PCL/collagen hydrolysate type I and III/Elastin) membranes are described. The aPCL6bCE and aPCL6CE fibers resulted in better structural properties for culturing cells, while aPCL6bC and PCL6bCE membranes have shown lower viability for keratinocytes, probably due to their different chemical surface and nanotopography. The roughness of these materials varied from 4.53 to 114.4 µm, depending on their diameter values. Puncture strength results were not significantly different within 2.25-2.66 MPa. Our results suggest that aPCL6bCE and aPCL6CE fibers have potential applications in skin tissue engineering, where the synergy among aminolyzed PCL and E seems to be a prerequisite to developing such activity.

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Main Authors: Aguirre-Chagala,Yanet E., Altuzar,Victor, Muñoz-Aguirre,Severino, Mendoza-Barrera,Claudia, Beltrán,Hiram Isaac, Garrido,Efraín, Ruiz-Ramos,Rubén
Format: Digital revista
Language:English
Published: Sociedad Mexicana de Ciencia y Tecnología de Superficies y Materiales A.C. 2022
Online Access:http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1665-35212022000100107
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spelling oai:scielo:S1665-352120220001001072023-08-17Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber ScaffoldsAguirre-Chagala,Yanet E.Altuzar,VictorMuñoz-Aguirre,SeverinoMendoza-Barrera,ClaudiaBeltrán,Hiram IsaacGarrido,EfraínRuiz-Ramos,RubénAbstract Bioinspired membranes as extracellular matrices are desired for skin regeneration. Herein, we fabricate four systems of fibrillar membranes composed of polycaprolactone (PCL), aminolyzed PCL, denatured collagen type I (C), and the blend of collagen hydrolysate types I and III (bC) or elastin (E), fabricated by the electrospinning process. The superficial features by SEM and optical profilometry, mechanical properties by puncture strength assays, and biological evaluation with a human keratinocyte cell line (HaCaT) for one day of aPCL6bCE (aPCL/collagen hydrolysate type I and III/Elastin), aPCL6CE (aPCL/denaturated Col I/elastin), aPCL6bC (aPCL/collagen hydrolysate type I and III), and PCL6bCE (PCL/collagen hydrolysate type I and III/Elastin) membranes are described. The aPCL6bCE and aPCL6CE fibers resulted in better structural properties for culturing cells, while aPCL6bC and PCL6bCE membranes have shown lower viability for keratinocytes, probably due to their different chemical surface and nanotopography. The roughness of these materials varied from 4.53 to 114.4 µm, depending on their diameter values. Puncture strength results were not significantly different within 2.25-2.66 MPa. Our results suggest that aPCL6bCE and aPCL6CE fibers have potential applications in skin tissue engineering, where the synergy among aminolyzed PCL and E seems to be a prerequisite to developing such activity.info:eu-repo/semantics/openAccessSociedad Mexicana de Ciencia y Tecnología de Superficies y Materiales A.C.Superficies y vacío v.35 20222022-01-01info:eu-repo/semantics/articletext/htmlhttp://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1665-35212022000100107en10.47566/2022_syv35_1-221001
institution SCIELO
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country México
countrycode MX
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databasecode rev-scielo-mx
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region America del Norte
libraryname SciELO
language English
format Digital
author Aguirre-Chagala,Yanet E.
Altuzar,Victor
Muñoz-Aguirre,Severino
Mendoza-Barrera,Claudia
Beltrán,Hiram Isaac
Garrido,Efraín
Ruiz-Ramos,Rubén
spellingShingle Aguirre-Chagala,Yanet E.
Altuzar,Victor
Muñoz-Aguirre,Severino
Mendoza-Barrera,Claudia
Beltrán,Hiram Isaac
Garrido,Efraín
Ruiz-Ramos,Rubén
Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber Scaffolds
author_facet Aguirre-Chagala,Yanet E.
Altuzar,Victor
Muñoz-Aguirre,Severino
Mendoza-Barrera,Claudia
Beltrán,Hiram Isaac
Garrido,Efraín
Ruiz-Ramos,Rubén
author_sort Aguirre-Chagala,Yanet E.
title Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber Scaffolds
title_short Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber Scaffolds
title_full Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber Scaffolds
title_fullStr Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber Scaffolds
title_full_unstemmed Mechanical properties and Keratinocytes cellular evaluation of Polycaprolactone/Collagen/Elastin Electrospun Fiber Scaffolds
title_sort mechanical properties and keratinocytes cellular evaluation of polycaprolactone/collagen/elastin electrospun fiber scaffolds
description Abstract Bioinspired membranes as extracellular matrices are desired for skin regeneration. Herein, we fabricate four systems of fibrillar membranes composed of polycaprolactone (PCL), aminolyzed PCL, denatured collagen type I (C), and the blend of collagen hydrolysate types I and III (bC) or elastin (E), fabricated by the electrospinning process. The superficial features by SEM and optical profilometry, mechanical properties by puncture strength assays, and biological evaluation with a human keratinocyte cell line (HaCaT) for one day of aPCL6bCE (aPCL/collagen hydrolysate type I and III/Elastin), aPCL6CE (aPCL/denaturated Col I/elastin), aPCL6bC (aPCL/collagen hydrolysate type I and III), and PCL6bCE (PCL/collagen hydrolysate type I and III/Elastin) membranes are described. The aPCL6bCE and aPCL6CE fibers resulted in better structural properties for culturing cells, while aPCL6bC and PCL6bCE membranes have shown lower viability for keratinocytes, probably due to their different chemical surface and nanotopography. The roughness of these materials varied from 4.53 to 114.4 µm, depending on their diameter values. Puncture strength results were not significantly different within 2.25-2.66 MPa. Our results suggest that aPCL6bCE and aPCL6CE fibers have potential applications in skin tissue engineering, where the synergy among aminolyzed PCL and E seems to be a prerequisite to developing such activity.
publisher Sociedad Mexicana de Ciencia y Tecnología de Superficies y Materiales A.C.
publishDate 2022
url http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1665-35212022000100107
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