Omid Bavi
Shiraz University of Technology
46 Papers
185 Citations
Omid Bavi is an academic researcher from Shiraz University of Technology. The author has contributed to research in topics: Medicine & Mechanosensitive channels. The author has an hindex of 13, co-authored 33 publications. Previous affiliations of Omid Bavi include University of Tehran & Victor Chang Cardiac Research Institute.
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Papers
Inorganic nanomaterials for chemo/photothermal therapy: a promising horizon on effective cancer treatment
TL;DR: An overview of most novel strategies used to employ inorganic nanostructures for cancer CT-PTT as well as cancer imaging is provided and discusses current challenges and future perspectives in this area.
Recent advances in the design and applications of amyloid-β peptide aggregation inhibitors for Alzheimer's disease therapy.
Safura Jokar,Saeedeh Khazaei,Hossein Behnammanesh,Amir Shamloo,Mostafa Erfani,Davood Beiki,Omid Bavi +6 more
TL;DR: A comprehensive view of the challenges in AD therapy and pathophysiology is provided and currently known compounds that can inhibit amyloid-β (Aβ) aggregation and their potential role in advancing current AD treatments are discussed.
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Cell membrane mechanics and mechanosensory transduction.
Boris Martinac,Boris Martinac,Yury A. Nikolaev,Giulia Silvani,Navid Bavi,Valentin Romanov,Yoshitaka Nakayama,Adam D. Martinac,Paul R. Rohde,Omid Bavi,Charles D. Cox +10 more
TL;DR: The current knowledge about cell mechanics and the role cell mechanics plays for the function of mechanosensitive ion channels as a special class of mechanoreceptors functioning as molecular transducers of mechanical stimuli on a millisecond timescale are reviewed.
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Chebyshev polynomials for generalized Couette flow of fractional Jeffrey nanofluid subjected to several thermochemical effects
TL;DR: The generalized Couette flow of Jeffrey nanofluid through porous medium, subjected to the oscillating pressure gradient and mixed convection, is numerically simulated using variable-order fractional calculus to solve the non-dimensional form of heat, mass, and momentum equations.
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Tuning ion channel mechanosensitivity by asymmetry of the transbilayer pressure profile.
Boris Martinac,Navid Bavi,Pietro Ridone,Pietro Ridone,Yury A. Nikolaev,Yury A. Nikolaev,Adam D. Martinac,Yoshitaka Nakayama,Paul R. Rohde,Omid Bavi +9 more
TL;DR: This brief review focuses on close interactions between MS channels and the lipid bilayer and emphasizes the central role that the transbilayer pressure profile plays in mechanosensitivity and gating of these fascinating membrane proteins.
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