M
Mohammad Morshed
Researcher at Isfahan University of Technology
Publications - 125
Citations - 5413
Mohammad Morshed is an academic researcher from Isfahan University of Technology. The author has contributed to research in topics: Nanofiber & Electrospinning. The author has an hindex of 29, co-authored 123 publications receiving 4634 citations. Previous affiliations of Mohammad Morshed include University of Leeds & University of Borås.
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Electrospun poly(epsilon-caprolactone)/gelatin nanofibrous scaffolds for nerve tissue engineering.
Laleh Ghasemi-Mobarakeh,Molamma P. Prabhakaran,Mohammad Morshed,Mohammad Hossein Nasr-Esfahani,Seeram Ramakrishna +4 more
TL;DR: PCL/gelatin 70:30 nanofiber was found to exhibit the most balanced properties to meet all the required specifications for nerve tissue and was used for in vitro culture of nerve stem cells and proved to be a promising biomaterial suitable for nerve regeneration.
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Application of conductive polymers, scaffolds and electrical stimulation for nerve tissue engineering.
Laleh Ghasemi-Mobarakeh,Molamma P. Prabhakaran,Mohammad Morshed,Mohammad Hossein Nasr-Esfahani,Hossein Baharvand,Sahar Kiani,Salem S. Al-Deyab,Seeram Ramakrishna,Seeram Ramakrishna +8 more
TL;DR: By taking into consideration the electrical properties of nerve cells and the effect of electrical stimulation on nerve cells, the most commonly utilized conductive polymers, polypyrrole (PPy) and polyaniline (PANI), along with their design and modifications, thus making them suitable scaffolds for nerve tissue engineering.
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Composite poly(vinyl alcohol)/poly(vinyl acetate) electrospun nanofibrous mats as a novel wound dressing matrix for controlled release of drugs
TL;DR: In vitro drug release evaluations showed that both the kind of polymer and the amount of drug loaded greatly affected the degree of swelling, weight loss, and initial burst and rate of drug release, and the thickness of the blend nanofiber mats strongly influenced the initial release and rateof drug release.
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Electrical Stimulation of Nerve Cells Using Conductive Nanofibrous Scaffolds for Nerve Tissue Engineering
Laleh Ghasemi-Mobarakeh,Molamma P. Prabhakaran,Mohammad Morshed,Mohammad Hossein Nasr-Esfahani,Seeram Ramakrishna +4 more
TL;DR: Electrical stimulation through conductive nanofibrous PANI/PG scaffolds showed enhanced cell proliferation and neurite outgrowth compared to the PANI or PG scaffolds that were not subjected to electrical stimulation.
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Controlled release of metronidazole benzoate from poly ε-caprolactone electrospun nanofibers for periodontal diseases.
TL;DR: In vitro drug release studies in phosphate buffer solution showed that the drug release rate was affected by the solvents ratio and the drug concentration, and sustained drug release was prolonged to at least 19 days.