In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications
The aim of this study was focused on the degradation behavior of electrospun (hydroxyethyl cellulose/ poly(vinyl) alcohol) HEC/PVA and HEC/PVA/collagen nanofibrous scaffolds, as a potential substrates for skin tissue engineering in two biologically related media: phosphate buffered solution (PBS)...
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ump-82132018-10-16T08:25:53Z http://umpir.ump.edu.my/id/eprint/8213/ In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications Jahir Hussain, Fathima Shahitha M. M., Yusoff Farah Hanani, Zulkifli QD Chemistry The aim of this study was focused on the degradation behavior of electrospun (hydroxyethyl cellulose/ poly(vinyl) alcohol) HEC/PVA and HEC/PVA/collagen nanofibrous scaffolds, as a potential substrates for skin tissue engineering in two biologically related media: phosphate buffered solution (PBS) and Dulbecco's modified Eagle's medium (DMEM) for 12 weeks incubation period. The scaffolds were characterized at different degradation times by a series of analysis including pH changes of solutions, weight loss, swelling ratio, SEM, ATR-FTIR, DSC, TGA and mechanical properties. The results indicated that HEC/PVA/collagen scaffolds were exhibited slower degradation rate in both medium as compared to HEC/PVA blend nanofibers. All fibers displayed uneven and rough surfaces towards the final week of incubation in both PBS and DMEM solution. As degradation time increased, there were little changes in the chemical structure as determined by FTIR spectra while thermal studies revealed that the melting temperatures and crystallinity of scaffolds were slightly shifted to a lower value. Both HEC/PVA and HEC/PVA/collagen fibers showed significant decrease in Young's modulus and tensile stress over 12 weeks degradation.These results show that these nanofibrous scaffold demonstrate degradation behavior that meets the requirement as potential degradable biomaterials for dermal replacement. Elsevier 2014 Article PeerReviewed application/pdf en http://umpir.ump.edu.my/id/eprint/8213/1/In%20Vitro%20Degradation%20Study%20Of%20Novel%20Hec-Pva-Collagen%20Nanofibrous%20Scaffold%20for%20Skin%20Tissue%20Engineering%20Applications.pdf application/pdf en http://umpir.ump.edu.my/id/eprint/8213/7/In%20Vitro%20Degradation%20Study%20Of%20Novel%20Hec-Pva-Collagen%20Nanofibrous%20Scaffold%20for%20Skin%20Tissue%20Engineering%20Applications.pdf Jahir Hussain, Fathima Shahitha and M. M., Yusoff and Farah Hanani, Zulkifli (2014) In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications. Polymer Degradation and Stability, 110. pp. 473-481. ISSN 0141-3910 http://dx.doi.org/10.1016/j.polymdegradstab.2014.10.017 DOI: 10.1016/j.polymdegradstab.2014.10.017 |
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QD Chemistry |
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QD Chemistry Jahir Hussain, Fathima Shahitha M. M., Yusoff Farah Hanani, Zulkifli In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications |
description |
The aim of this study was focused on the degradation behavior of electrospun (hydroxyethyl cellulose/
poly(vinyl) alcohol) HEC/PVA and HEC/PVA/collagen nanofibrous scaffolds, as a potential substrates for
skin tissue engineering in two biologically related media: phosphate buffered solution (PBS) and Dulbecco's
modified Eagle's medium (DMEM) for 12 weeks incubation period. The scaffolds were characterized at different degradation times by a series of analysis including pH changes of solutions, weight loss, swelling ratio, SEM, ATR-FTIR, DSC, TGA and mechanical properties. The results indicated that HEC/PVA/collagen scaffolds were exhibited slower degradation rate in both medium as compared to HEC/PVA blend nanofibers. All fibers displayed uneven and rough surfaces towards the final week of incubation in
both PBS and DMEM solution. As degradation time increased, there were little changes in the chemical
structure as determined by FTIR spectra while thermal studies revealed that the melting temperatures
and crystallinity of scaffolds were slightly shifted to a lower value. Both HEC/PVA and HEC/PVA/collagen
fibers showed significant decrease in Young's modulus and tensile stress over 12 weeks degradation.These results show that these nanofibrous scaffold demonstrate degradation behavior that meets the requirement as potential degradable biomaterials for dermal replacement. |
format |
Article |
author |
Jahir Hussain, Fathima Shahitha M. M., Yusoff Farah Hanani, Zulkifli |
author_facet |
Jahir Hussain, Fathima Shahitha M. M., Yusoff Farah Hanani, Zulkifli |
author_sort |
Jahir Hussain, Fathima Shahitha |
title |
In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications |
title_short |
In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications |
title_full |
In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications |
title_fullStr |
In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications |
title_full_unstemmed |
In Vitro Degradation Study of Novel HEC/PVA/collagen Nanofibrous Scaffold for Skin Tissue Engineering Applications |
title_sort |
in vitro degradation study of novel hec/pva/collagen nanofibrous scaffold for skin tissue engineering applications |
publisher |
Elsevier |
publishDate |
2014 |
url |
http://umpir.ump.edu.my/id/eprint/8213/ http://umpir.ump.edu.my/id/eprint/8213/ http://umpir.ump.edu.my/id/eprint/8213/ http://umpir.ump.edu.my/id/eprint/8213/1/In%20Vitro%20Degradation%20Study%20Of%20Novel%20Hec-Pva-Collagen%20Nanofibrous%20Scaffold%20for%20Skin%20Tissue%20Engineering%20Applications.pdf http://umpir.ump.edu.my/id/eprint/8213/7/In%20Vitro%20Degradation%20Study%20Of%20Novel%20Hec-Pva-Collagen%20Nanofibrous%20Scaffold%20for%20Skin%20Tissue%20Engineering%20Applications.pdf |
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2023-09-18T22:05:33Z |
last_indexed |
2023-09-18T22:05:33Z |
_version_ |
1777414683574140928 |