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Abbas Jafarian
Researcher at Isfahan University of Medical Sciences
Publications - 32
Citations - 718
Abbas Jafarian is an academic researcher from Isfahan University of Medical Sciences. The author has contributed to research in topics: HeLa & Bleomycin. The author has an hindex of 14, co-authored 31 publications receiving 624 citations.
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Anxiolytic effects of Echium amoenum on the elevated plus-maze model of anxiety in mice.
TL;DR: The ethanolic extract of E. amoenum seems to possess anxiolytic effect with lower sedative activity than that of diazepam, which prolonged the ketamine-induced latency to sleep but had no significant effects on total sleeping time induced by ketamine.
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Biodistribution of Amikacin Solid Lipid Nanoparticles after Pulmonary Delivery
Jaleh Varshosaz,Sanaz Ghaffari,S. F. Mirshojaei,Abbas Jafarian,Fatemeh Atyabi,Farzad Kobarfard,Shirzad Azarmi +6 more
TL;DR: It seems that pulmonary delivery of SLNs may improve patients' compliance due to reduction of drug side effects in kidneys and elongation of drug dosing intervals due to the sustained drug release from SLNs.
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Effects of silymarin on the proliferation and glutathione levels of peripheral blood mononuclear cells from β-thalassemia major patients
Fariba Alidoost,Marjan Gharagozloo,Bahram Bagherpour,Abbas Jafarian,Seyed Ebrahim Sajjadi,Hamid Hourfar,Behjat Moayedi +6 more
TL;DR: The benefit of using flavonoids to normalize immune dysfunction in beta-thalassemia major is suggested, as well as the GSH restoration and improvement of PBMC growth by silymarin is a possible explanation for its recently reported antioxidant and immunostimulatory activities.
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Cytotoxic Effects of Essential Oils of Some Iranian Citrus Peels
TL;DR: The cytotoxicity of essential oils of Iranian Citrus limon, C. medica and C. sinensis had a greater cytotoxic effect on MCF-7 than that on Hela cells, and it could be concluded that these components may have greater cytOToxic effects or they may also have synergistic effects with limonene.
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Phytoremediation of benzene, toluene, ethylbenzene and xylene contaminated air by D. deremensis and O. microdasys plants
TL;DR: The authors recommended studying the efficiency of the plants for removal of BTEX from air at higher range of concentrations such as 20-30 ppm, and studying the effectiveness of O. microdasys for cleaning the air from pollutants.