N
Nasser Ghaemi
Researcher at University of Tehran
Publications - 45
Citations - 1636
Nasser Ghaemi is an academic researcher from University of Tehran. The author has contributed to research in topics: Horseradish peroxidase & Stem cell. The author has an hindex of 21, co-authored 45 publications receiving 1327 citations. Previous affiliations of Nasser Ghaemi include Sharif University of Technology & Islamic Azad University.
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Nanohydroxyapatite-coated electrospun poly(l-lactide) nanofibers enhance osteogenic differentiation of stem cells and induce ectopic bone formation.
TL;DR: It was shown that nanofibrous structure enhanced osteogenic differentiation of USSC and the n-HA/PLLA electrospun scaffold showed the capacity for ectopic bone formation in the absence of exogenous cells.
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A comparison between osteogenic differentiation of human unrestricted somatic stem cells and mesenchymal stem cells from bone marrow and adipose tissue
Abbas Shafiee,Ehsan Seyedjafari,Masoud Soleimani,Naser Ahmadbeigi,Peyman Dinarvand,Nasser Ghaemi +5 more
TL;DR: In this paper, the biological behavior and osteogenic capacity of the newly introduced cord-blood-derived, unrestricted somatic stem cells (USSC) were compared with those of mesenchymal stem cells isolated from bone marrow and adipose tissue (AT-MSC).
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Green synthesis of manganese nanoparticles: Applications and future perspective-A review.
Vahid Hoseinpour,Nasser Ghaemi +1 more
TL;DR: Mn-oxide NPs potentially hold great promise for sustainable nanotechnology, and different methods of green synthesis of Mn NPs, including synthesis using plant extract, synthesis using microorganism, and low-temperature synthesis have been investigated and presented.
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Covalent attachment of cholesterol oxidase and horseradish peroxidase on perlite through silanization: activity, stability and co-immobilization.
Seyed-Fakhreddin Torabi,Khosro Khajeh,Salehe Ghasempur,Nasser Ghaemi,Seyed Omid Ranaei Siadat +4 more
TL;DR: Immobilized COD showed inhibition in its activity at high cholesterol concentration which was not reported for soluble COD before and co-immobilized enzymes retained 65% of its initial activity after 20 consecutive reactor batch cycles.
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Surface modification of PES membrane via aminolysis and immobilization of carboxymethylcellulose and sulphated carboxymethylcellulose for hemodialysis.
TL;DR: The results showed a decrease in contact angle, protein adsorption and platelet adhesion compared to unmodified PES membranes, which supported the increased hemocompatibility of the modified membranes especially for the PES-SCMC membrane.