Ether-Oxygen Containing Electrospun Microfibrous and Sub-Microfibrous Scaffolds Based on Poly(butylene 1,4-cyclohexanedicarboxylate) for Skeletal Muscle Tissue Engineering

We report the study of novel biodegradable electrospun scaffolds from poly(butylene 1,4-cyclohexandicarboxylate-co-triethylene cyclohexanedicarboxylate) (P(BCE-co-TECE)) as support for in vitro and in vivo muscle tissue regeneration. We demonstrate that chemical composition, i.e., the amount of TECE...

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Autores principales: Bloise, Nora, Berardi, Emanuele, Gualandi, Chiara, Zaghi, Elisa, Gigli, Matteo, Duelen, Robin, Ceccarelli, Gabriele, Cortesi, Emanuela Elsa, Costamagna, Domiziana, Bruni, Giovanna, Lotti, Nadia, Focarete, Maria Letizia, Visai, Livia, Sampaolesi, Maurilio
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2018
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6214009/
https://www.ncbi.nlm.nih.gov/pubmed/30336625
http://dx.doi.org/10.3390/ijms19103212
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author Bloise, Nora
Berardi, Emanuele
Gualandi, Chiara
Zaghi, Elisa
Gigli, Matteo
Duelen, Robin
Ceccarelli, Gabriele
Cortesi, Emanuela Elsa
Costamagna, Domiziana
Bruni, Giovanna
Lotti, Nadia
Focarete, Maria Letizia
Visai, Livia
Sampaolesi, Maurilio
author_facet Bloise, Nora
Berardi, Emanuele
Gualandi, Chiara
Zaghi, Elisa
Gigli, Matteo
Duelen, Robin
Ceccarelli, Gabriele
Cortesi, Emanuela Elsa
Costamagna, Domiziana
Bruni, Giovanna
Lotti, Nadia
Focarete, Maria Letizia
Visai, Livia
Sampaolesi, Maurilio
author_sort Bloise, Nora
collection PubMed
description We report the study of novel biodegradable electrospun scaffolds from poly(butylene 1,4-cyclohexandicarboxylate-co-triethylene cyclohexanedicarboxylate) (P(BCE-co-TECE)) as support for in vitro and in vivo muscle tissue regeneration. We demonstrate that chemical composition, i.e., the amount of TECE co-units (constituted of polyethylene glycol-like moieties), and fibre morphology, i.e., aligned microfibrous or sub-microfibrous scaffolds, are crucial in determining the material biocompatibility. Indeed, the presence of ether linkages influences surface wettability, mechanical properties, hydrolytic degradation rate, and density of cell anchoring points of the studied materials. On the other hand, electrospun scaffolds improve cell adhesion, proliferation, and differentiation by favouring cell alignment along fibre direction (fibre morphology), also allowing for better cell infiltration and oxygen and nutrient diffusion (fibre size). Overall, C2C12 myogenic cells highly differentiated into mature myotubes when cultured on microfibres realised with the copolymer richest in TECE co-units (micro-P73 mat). Lastly, when transplanted in the tibialis anterior muscles of healthy, injured, or dystrophic mice, micro-P73 mat appeared highly vascularised, colonised by murine cells and perfectly integrated with host muscles, thus confirming the suitability of P(BCE-co-TECE) scaffolds as substrates for skeletal muscle tissue engineering.
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spelling pubmed-62140092018-11-14 Ether-Oxygen Containing Electrospun Microfibrous and Sub-Microfibrous Scaffolds Based on Poly(butylene 1,4-cyclohexanedicarboxylate) for Skeletal Muscle Tissue Engineering Bloise, Nora Berardi, Emanuele Gualandi, Chiara Zaghi, Elisa Gigli, Matteo Duelen, Robin Ceccarelli, Gabriele Cortesi, Emanuela Elsa Costamagna, Domiziana Bruni, Giovanna Lotti, Nadia Focarete, Maria Letizia Visai, Livia Sampaolesi, Maurilio Int J Mol Sci Article We report the study of novel biodegradable electrospun scaffolds from poly(butylene 1,4-cyclohexandicarboxylate-co-triethylene cyclohexanedicarboxylate) (P(BCE-co-TECE)) as support for in vitro and in vivo muscle tissue regeneration. We demonstrate that chemical composition, i.e., the amount of TECE co-units (constituted of polyethylene glycol-like moieties), and fibre morphology, i.e., aligned microfibrous or sub-microfibrous scaffolds, are crucial in determining the material biocompatibility. Indeed, the presence of ether linkages influences surface wettability, mechanical properties, hydrolytic degradation rate, and density of cell anchoring points of the studied materials. On the other hand, electrospun scaffolds improve cell adhesion, proliferation, and differentiation by favouring cell alignment along fibre direction (fibre morphology), also allowing for better cell infiltration and oxygen and nutrient diffusion (fibre size). Overall, C2C12 myogenic cells highly differentiated into mature myotubes when cultured on microfibres realised with the copolymer richest in TECE co-units (micro-P73 mat). Lastly, when transplanted in the tibialis anterior muscles of healthy, injured, or dystrophic mice, micro-P73 mat appeared highly vascularised, colonised by murine cells and perfectly integrated with host muscles, thus confirming the suitability of P(BCE-co-TECE) scaffolds as substrates for skeletal muscle tissue engineering. MDPI 2018-10-17 /pmc/articles/PMC6214009/ /pubmed/30336625 http://dx.doi.org/10.3390/ijms19103212 Text en © 2018 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Bloise, Nora
Berardi, Emanuele
Gualandi, Chiara
Zaghi, Elisa
Gigli, Matteo
Duelen, Robin
Ceccarelli, Gabriele
Cortesi, Emanuela Elsa
Costamagna, Domiziana
Bruni, Giovanna
Lotti, Nadia
Focarete, Maria Letizia
Visai, Livia
Sampaolesi, Maurilio
Ether-Oxygen Containing Electrospun Microfibrous and Sub-Microfibrous Scaffolds Based on Poly(butylene 1,4-cyclohexanedicarboxylate) for Skeletal Muscle Tissue Engineering
title Ether-Oxygen Containing Electrospun Microfibrous and Sub-Microfibrous Scaffolds Based on Poly(butylene 1,4-cyclohexanedicarboxylate) for Skeletal Muscle Tissue Engineering
title_full Ether-Oxygen Containing Electrospun Microfibrous and Sub-Microfibrous Scaffolds Based on Poly(butylene 1,4-cyclohexanedicarboxylate) for Skeletal Muscle Tissue Engineering
title_fullStr Ether-Oxygen Containing Electrospun Microfibrous and Sub-Microfibrous Scaffolds Based on Poly(butylene 1,4-cyclohexanedicarboxylate) for Skeletal Muscle Tissue Engineering
title_full_unstemmed Ether-Oxygen Containing Electrospun Microfibrous and Sub-Microfibrous Scaffolds Based on Poly(butylene 1,4-cyclohexanedicarboxylate) for Skeletal Muscle Tissue Engineering
title_short Ether-Oxygen Containing Electrospun Microfibrous and Sub-Microfibrous Scaffolds Based on Poly(butylene 1,4-cyclohexanedicarboxylate) for Skeletal Muscle Tissue Engineering
title_sort ether-oxygen containing electrospun microfibrous and sub-microfibrous scaffolds based on poly(butylene 1,4-cyclohexanedicarboxylate) for skeletal muscle tissue engineering
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6214009/
https://www.ncbi.nlm.nih.gov/pubmed/30336625
http://dx.doi.org/10.3390/ijms19103212
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