Y
Yunes Panahi
Researcher at Baqiyatallah University of Medical Sciences
Publications - 278
Citations - 9051
Yunes Panahi is an academic researcher from Baqiyatallah University of Medical Sciences. The author has contributed to research in topics: Randomized controlled trial & Placebo. The author has an hindex of 40, co-authored 268 publications receiving 6658 citations. Previous affiliations of Yunes Panahi include Yahoo!.
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Journal Article
Phenol and menthol in the treatment of chronic skin lesions following mustard gas exposure
TL;DR: A phenol one percent and menthol one percent combination has significant therapeutic effects for mustard gas-induced pruritus in chemical warfare-injured veterans, in comparison with the placebo.
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Natural killer cell-based immunotherapy: From transplantation toward targeting cancer stem cells.
TL;DR: An overview of the emerging knowledge of the characteristics, diversities, and mechanism‐driven immune surveillance of human NK cells and advances in NK cell–based immunotherapies is presented.
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Gene expression profile of oxidative stress and antioxidant defense in lung tissue of patients exposed to sulfur mustard.
TL;DR: Changes in expression of genes related to oxidative stress (OS) and antioxidant defense caused by SM in lung tissue of patients were investigated, suggesting an increased oxidative damage in mustard lungs.
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Diagnostic and therapeutic value of short-term corticosteroid therapy in exacerbation of mustard gas-induced chronic bronchitis.
Mostafa Ghanei,Ali Reza Hosseini Khalili,Mohamad Javad Arab,Mojtaba Mojtahedzadeh,Jafar Aslani,Mahbob Lessan-Pezeshki,Yunes Panahi,Farshid Alaeddini +7 more
TL;DR: There was significant improvement in spirometery indexes of both groups in approximately half of the patients over the study period, and a short-term bolus steroid treatment is suggested to triage the patients into responders and non-responders for subsequent treatment.
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Applications of Dendrimers in Nanomedicine and Drug Delivery: A Review
TL;DR: Dendrimers are hyper-branched organic compounds characterized via a three-dimensional structure possessing functional groups on the surface as discussed by the authors, which can be simply modified to enhance the functionality of dendrimer and produce biocompatible and versatile products.