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Fabrication and Characterization of Polycaprolactone Fumarate/Gelatin-Based Nanocomposite Incorporated With Silicon and Magnesium Co-Doped Fluorapatite Nanoparticles Using Electrospinning Method Publisher Pubmed



Ahmadi T1, 2 ; Monshi A3 ; Mortazavi V4 ; Fathi MH3, 4 ; Sharifi S5 ; Kharaziha M3 ; Khazdooz L6 ; Zarei A7 ; Taghian Dehaghani M3
Authors
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Authors Affiliations
  1. 1. Department of Materials Engineering, Islamic Azad University, Shahreza Branch, P.O. Box: 86145-311, Shahreza, Iran
  2. 2. Razi Chemistry Research Center (RCRC), Islamic Azad University, Shahreza Branch, Isfahan, Iran
  3. 3. Department of Materials Engineering, Isfahan University of Technology, Isfahan, 8415683111, Iran
  4. 4. Torabinejad Dental Research Center, Department of Operative Dentistry, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, 8174673461, Iran
  5. 5. W. J. Kolff Institute, Department of Biomedical Engineering, University Medical Centre Groningen, University of Groningen, P. O. Box 196, Groningen, 9700 AD, Netherlands
  6. 6. Department of Science, Islamic Azad University, Khorasgan (Isfahan) Branch, Isfahan, 81595-158, Iran
  7. 7. Department of Science, Fasa Branch, Islamic Azad University, P.O. Box: 364, Fasa, 7461713591, Fasa, Fars, Iran

Source: Materials Science and Engineering C Published:2020


Abstract

The aim of this study was to fabricate and characterize biodegradable polycaprolactone fumarate(PCLF)/gelatin-based nanocomposite incorporated with the 0, 5 and 10 wt% silicon and magnesium co-doped fluorapatite nanoparticles (Si-Mg-FA) membranes using electrospinning process for guided bone regeneration (GBR) and guided tissue regeneration (GTR) applications. Results demonstrated the formation of randomly-oriented and defect-free fibers with various fiber sizes depending on the Si-Mg-FA content. Moreover, incorporation of 5 wt% Si-Mg-FA significantly improved the mechanical strength (1.5times) compared to the mechanical strength of PCLF/gelatin membrane and nanocomposite with 10 wt% nanoparticles. There was no clear difference between degradation rate of PCLF/gelatin and PCLF/gelatin with 5 wt% nanoparticles at 7, 14 and 28 days of immersion in phosphate buffer saline while 10 wt% nanoparticles significantly increased biodegradation of PCLF/gelatin, and no cytotoxic effect of membranes was seen. Finally, scanning electron microscopy (SEM) micrographs of fibroblast cells cultured on the samples demonstrated that the cells were completely attached and spread on the surface of nanocomposites. In summary, PCLF/gelatin membranes consisting of 5 wt% Si-Mg-FA nanoparticles could provide appropriate mechanical and biological properties and fairly good degradation rate, making it appropriate for GTR/GBR applications. © 2019 Elsevier B.V.
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