Poly(hydroxybutyrate)/chitosan Aligned Electrospun Scaffold as a Novel Substrate for Nerve Tissue Engineering

(2018) Poly(hydroxybutyrate)/chitosan Aligned Electrospun Scaffold as a Novel Substrate for Nerve Tissue Engineering. Adv Biomed Res. p. 44. ISSN 2277-9175 (Print) 2277-9175 (Linking)

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Abstract

Background: Reconstruction of nervous system is a great challenge in the therapeutic medical field. Nerve tissue engineering is a novel method to regenerate nervous system in human health care. Tissue engineering has introduced novel approaches to promote and guide peripheral nerve regeneration using submicron and nanoscale fibrous scaffolds. Materials and Methods: In this study, 9 wt poly(3-hydroxybutyrate) (PHB) solutions with two different ratios of chitosan (CTS) (15, and 20) were mixed in trifluoroacetic acid as a cosolvent. Thereafter, random and aligned PHB/CTS scaffolds were fabricated by electrospinning method in an appropriate condition. Results: Average diameters for aligned PHB, PHB/CTS 85:15 and PHB/CTS 80:20 were obtained as 675 nm, 740.3 nm, and 870.74 nm, which was lesser than random fibers. The solution components entity authenticity was approved by Fourier transform infrared. The addition of CTS decreased both water droplet contact angle from 124.79 degrees to 43.14 degrees in random and 110.87 degrees to 33.49 degrees in aligned PHB/CTS fibrous scaffold. Moreover, alignment of fibers causes tremendous increase in hydrophilicity of fibrous PHB/CTS substrate. Tensile strength increased from 6.41 MPa for random to 8.73 MPa for aligned PHB/CTS 85:15. Conclusions: Our results indicated that aligned PHB/CTS 85:15 nanofibers are the desired scaffold than the random PHB/CTS nanofibers for application in nerve tissue regeneration.

Item Type: Article
Keywords: Chitosan nerve tissue engineering poly(3-hydroxybutyrate) scaffold
Divisions: Faculty of Medicine > Department of Basic Science > Department of Anatomical Sciences
Faculty of Medicine > Department of Basic Science > Department of Molecular Medicine and Genetics
School of Advanced Technologies in Medicine > Department of Biomaterials, Nanotechnology and Tissue Engineering
Page Range: p. 44
Journal or Publication Title: Adv Biomed Res
Journal Index: Pubmed
Volume: 7
Identification Number: https://doi.org/10.4103/abr.abr₂₇₇₁₆
ISSN: 2277-9175 (Print) 2277-9175 (Linking)
Depositing User: Zahra Otroj
URI: http://eprints.mui.ac.ir/id/eprint/7756

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