Bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute
© 2016, Springer Science+Business Media New York. A novel bilayer knitted fabric-reinforced composite for potentially being used as a dural substitute was developed by solution infiltration of oxidized regenerated cellulose knitted fabric (ORC) with poly ε-caprolactone (PCL) solution at various conc...
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th-mahidol.430092019-03-14T15:04:04Z Bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute Jintamai Suwanprateeb Ticomporn Luangwattanawilai Thunyanun Theeranattapong Waraporn Suvannapruk Sorayouth Chumnanvej Warinkarn Hemstapat Thailand National Metal and Materials Technology Center Mahidol University Faculty of Medicine, Ramathibodi Hospital, Mahidol University Biochemistry, Genetics and Molecular Biology Chemical Engineering Engineering Materials Science © 2016, Springer Science+Business Media New York. A novel bilayer knitted fabric-reinforced composite for potentially being used as a dural substitute was developed by solution infiltration of oxidized regenerated cellulose knitted fabric (ORC) with poly ε-caprolactone (PCL) solution at various concentrations ranging 10–40 g/100 mL. It was found that the density of all formulations did not differ significantly and was lower than that of the human dura. Microstructure of the samples typically comprised a bilayer structure having a nonporous PCL layer on one side and the ORC/PCL composite layer on another side. Tensile modulus and strength of the samples initially decreased with increasing PCL solution concentration for up to 20 g/100 mL and re-increased again with further increasing PCL solution concentration. Strain at break of all formulations were not significantly different. Watertight test revealed that all composites could prevent leakage at the pressure within the normal range of intracranial pressure. In vitro degradation study revealed that the weight loss percentage and change in tensile properties of all samples displayed biphasic profile comprising an initially rapid decrease and followed by a gradual decrease with incubation times afterward. Micro and macro porous channels were observed to be in situ generated in the composite layer by ORC dissolution and PCL resorption during degradation while nonporous layer remained relatively unchanged. The degradation rate was found to decrease with increasing PCL solution concentration. In vitro biocompatibility using alamar blue assay on selected samples showed that fibroblasts could attach and proliferate well at all incubation periods. 2018-12-11T02:12:52Z 2019-03-14T08:04:04Z 2018-12-11T02:12:52Z 2019-03-14T08:04:04Z 2016-07-01 Article Journal of Materials Science: Materials in Medicine. Vol.27, No.7 (2016) 10.1007/s10856-016-5736-z 15734838 09574530 2-s2.0-84976274990 https://repository.li.mahidol.ac.th/handle/123456789/43009 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84976274990&origin=inward |
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Biochemistry, Genetics and Molecular Biology Chemical Engineering Engineering Materials Science Jintamai Suwanprateeb Ticomporn Luangwattanawilai Thunyanun Theeranattapong Waraporn Suvannapruk Sorayouth Chumnanvej Warinkarn Hemstapat Bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute |
| description |
© 2016, Springer Science+Business Media New York. A novel bilayer knitted fabric-reinforced composite for potentially being used as a dural substitute was developed by solution infiltration of oxidized regenerated cellulose knitted fabric (ORC) with poly ε-caprolactone (PCL) solution at various concentrations ranging 10–40 g/100 mL. It was found that the density of all formulations did not differ significantly and was lower than that of the human dura. Microstructure of the samples typically comprised a bilayer structure having a nonporous PCL layer on one side and the ORC/PCL composite layer on another side. Tensile modulus and strength of the samples initially decreased with increasing PCL solution concentration for up to 20 g/100 mL and re-increased again with further increasing PCL solution concentration. Strain at break of all formulations were not significantly different. Watertight test revealed that all composites could prevent leakage at the pressure within the normal range of intracranial pressure. In vitro degradation study revealed that the weight loss percentage and change in tensile properties of all samples displayed biphasic profile comprising an initially rapid decrease and followed by a gradual decrease with incubation times afterward. Micro and macro porous channels were observed to be in situ generated in the composite layer by ORC dissolution and PCL resorption during degradation while nonporous layer remained relatively unchanged. The degradation rate was found to decrease with increasing PCL solution concentration. In vitro biocompatibility using alamar blue assay on selected samples showed that fibroblasts could attach and proliferate well at all incubation periods. |
| author2 |
Thailand National Metal and Materials Technology Center |
| author_facet |
Thailand National Metal and Materials Technology Center Jintamai Suwanprateeb Ticomporn Luangwattanawilai Thunyanun Theeranattapong Waraporn Suvannapruk Sorayouth Chumnanvej Warinkarn Hemstapat |
| format |
Article |
| author |
Jintamai Suwanprateeb Ticomporn Luangwattanawilai Thunyanun Theeranattapong Waraporn Suvannapruk Sorayouth Chumnanvej Warinkarn Hemstapat |
| author_sort |
Jintamai Suwanprateeb |
| title |
Bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute |
| title_short |
Bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute |
| title_full |
Bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute |
| title_fullStr |
Bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute |
| title_full_unstemmed |
Bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute |
| title_sort |
bilayer oxidized regenerated cellulose/poly ε-caprolactone knitted fabric-reinforced composite for use as an artificial dural substitute |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/43009 |
| _version_ |
1763493340805857280 |