M
Marziyeh Ranjbar-Mohammadi
Researcher at University of Bonab
Publications - 29
Citations - 1619
Marziyeh Ranjbar-Mohammadi is an academic researcher from University of Bonab. The author has contributed to research in topics: Nanofiber & Electrospinning. The author has an hindex of 17, co-authored 26 publications receiving 1132 citations. Previous affiliations of Marziyeh Ranjbar-Mohammadi include Amirkabir University of Technology.
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Antibacterial performance and in vivo diabetic wound healing of curcumin loaded gum tragacanth/poly(ε-caprolactone) electrospun nanofibers.
Marziyeh Ranjbar-Mohammadi,Shahram Rabbani,S. Hajir Bahrami,Mohammad Taghi Joghataei,F. Moayer +4 more
TL;DR: Quantification analysis of scaffolds on day 5 confirmed that, tissue engineered scaffolds with increased amount of angiogenesis number, granulation tissue area, fibroblast number, and decreased epithelial gap can be more effective compared to GT/PCL/Cur nanofibers.
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Electrospinning of PLGA/gum tragacanth nanofibers containing tetracycline hydrochloride for periodontal regeneration.
Marziyeh Ranjbar-Mohammadi,Maedeh Zamani,Molamma P. Prabhakaran,S. Hajir Bahrami,Seeram Ramakrishna +4 more
TL;DR: The prolonged drug release, together with proven biocompatibility, antibacterial and mechanical properties of drug loaded core shell nanofibers make them a promising candidate to be used as drug delivery system for periodontal diseases.
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Electrospun curcumin loaded poly(ε-caprolactone)/gum tragacanth nanofibers for biomedical application.
TL;DR: The fabricated PCL/GT/Cur-3% with suitable mechanical properties, excellent biological characteristics, and maintaining their original structure in degradation media may have potential application as a wound dressing patch for healing slow rate wounds.
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Fabrication of novel nanofiber scaffolds from gum tragacanth/poly(vinyl alcohol) for wound dressing application: In vitro evaluation and antibacterial properties
TL;DR: Gum tragacanth (GT) is one of the most widely used natural gums which has found applications in many areas because of its attractive features such as biodegradability, nontoxic nature, natural availability, higher resistance to microbial attacks and long shelf-life properties.
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Smart electrospun nanofibers containing PCL/gelatin/graphene oxide for application in nerve tissue engineering.
TL;DR: Electrospun PCL/gelatin/graphene nanofibrous mats exhibited 99% antibacterial properties against gram-positive and gram-negative bacteria and are a promising candidate to be used as electrically conductive scaffolds in neural tissue engineering as well as controlled drug delivery.