about
Nanostructures: a platform for brain repair and augmentationToxicity of nanomaterialsCell type-specific activation of AKT and ERK signaling pathways by small negatively-charged magnetic nanoparticlesGlobal warming and neurodegenerative disorders: speculations on their linkageSuperparamagnetic iron oxide nanoparticles for delivery of therapeutic agents: opportunities and challenges.Crucial ignored parameters on nanotoxicology: the importance of toxicity assay modifications and "cell vision"Effect of nanoparticles on the cell life cycle.Assessing the in vitro and in vivo toxicity of superparamagnetic iron oxide nanoparticles.Therapeutic benefits from nanoparticles: the potential significance of nanoscience in diseases with compromise to the blood brain barrier.Epicardial FSTL1 reconstitution regenerates the adult mammalian heart.Variation of protein corona composition of gold nanoparticles following plasmonic heating.Direct evaluation of myocardial viability and stem cell engraftment demonstrates salvage of the injured myocardium.Micropatterned nanostructures: a bioengineered approach to mass-produce functional myocardial grafts.Significance of surface charge and shell material of superparamagnetic iron oxide nanoparticle (SPION) based core/shell nanoparticles on the composition of the protein corona.Superparamagnetic iron oxide nanoparticles: promises for diagnosis and treatment of multiple sclerosis.Nanoparticles-cell association predicted by protein corona fingerprints.Age-related obesity and type 2 diabetes dysregulate neuronal associated genes and proteins in humans.Physiological temperature has a crucial role in amyloid β in the absence and presence of hydrophobic and hydrophilic nanoparticles.Influence of the physiochemical properties of superparamagnetic iron oxide nanoparticles on amyloid β protein fibrillation in solution.Protein corona significantly reduces active targeting yield.Novel MRI Contrast Agent from Magnetotactic Bacteria Enables In Vivo Tracking of iPSC-derived Cardiomyocytes.Protein Corona Influences Cell-Biomaterial Interactions in Nanostructured Tissue Engineering ScaffoldsSerum multivalent cationic pattern: speculation on the efficient approach for detection of Alzheimer's disease.Iron oxide nanoparticles inhibit tumour growth by inducing pro-inflammatory macrophage polarization in tumour tissues.Protein corona composition of superparamagnetic iron oxide nanoparticles with various physico-chemical properties and coatings.Superparamagnetic iron oxide nanoparticles (SPIONs): development, surface modification and applications in chemotherapy.Magnetic resonance imaging tracking of stem cells in vivo using iron oxide nanoparticles as a tool for the advancement of clinical regenerative medicine.Magnetic fluid hyperthermia: focus on superparamagnetic iron oxide nanoparticles.Protein-nanoparticle interactions: opportunities and challenges.Engineered nanoparticles for biomolecular imaging.Antibacterial properties of nanoparticles.Big signals from small particles: regulation of cell signaling pathways by nanoparticles.Graphene: promises, facts, opportunities, and challenges in nanomedicine.Protein fibrillation and nanoparticle interactions: opportunities and challenges.Optical sensor arrays for chemical sensing: the optoelectronic nose.Exocytosis of nanoparticles from cells: role in cellular retention and toxicity.Interaction of stable colloidal nanoparticles with cellular membranes.Regulation of stem cell fate by nanomaterial substrates.Superparamagnetic iron oxide nanoparticles for in vivo molecular and cellular imaging.Engineering the nanoparticle-protein interface for cancer therapeutics.
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P50
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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Morteza Mahmoudi
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