Magnetite Nanoparticles

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  Subject Areas on Research

  • 3D-printed microfluidic device for the detection of pathogenic bacteria using size-based separation in helical channel with trapezoid cross-section. 
  • An antibody-free dual-biomarker rapid enrichment workflow (AnDREW) improves the sensitivity of malaria rapid diagnostic tests. 
  • Dendritic Cell-Activating Magnetic Nanoparticles Enable Early Prediction of Antitumor Response with Magnetic Resonance Imaging. 
  • Detection of hepatic lesions in candidates for surgery: comparison of ferumoxides-enhanced MR imaging and dual-phase helical CT. 
  • Detection of iron-labeled single cells by MR imaging based on intermolecular double quantum coherences at 14 T. 
  • Dual contrast enhancement of both T1- and T2-weighted sequences using ultrasmall superparamagnetic iron oxide. 
  • Focal nodular hyperplasia: intraindividual comparison of dynamic gadobenate dimeglumine- and ferucarbotran-enhanced magnetic resonance imaging. 
  • Importance of integrating nanotechnology with pharmacology and physiology for innovative drug delivery and therapy - an illustration with firsthand examples. 
  • Improving sensitivity and specificity of capturing and detecting targeted cancer cells with anti-biofouling polymer coated magnetic iron oxide nanoparticles. 
  • Local hyperthermia treatment of tumors induces CD8(+) T cell-mediated resistance against distal and secondary tumors. 
  • Magnetic fluid hyperthermia for bladder cancer: a preclinical dosimetry study. 
  • Multichannel power electronics and magnetic nanoparticles for selective thermal magnetogenetics. 
  • Nanoparticle-based diagnostic imaging of inflammation in rheumatic disease. 
  • Neutralizing Antibody Induction by HIV-1 Envelope Glycoprotein SOSIP Trimers on Iron Oxide Nanoparticles May Be Impaired by Mannose Binding Lectin. 
  • Phagocytes mediate targeting of iron oxide nanoparticles to tumors for cancer therapy. 
  • Protein typing of circulating microvesicles allows real-time monitoring of glioblastoma therapy. 
  • Quantification of superparamagnetic iron oxide using inversion recovery balanced steady-state free precession. 
  • Splenic magnetic resonance imaging using particulate agents. 
  • Superparamagnetic iron oxide labeling and transplantation of adipose-derived stem cells in middle cerebral artery occlusion-injured mice. 
  • Superparamagnetic iron oxide particles (SH U 555 A): evaluation of efficacy in three doses for hepatic MR imaging. 
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  Keywords of People

  • Johnson, G. Allan, Charles E. Putman University Distinguished Professor of Radiology, Biomedical Engineering