Nanoparticle contrast agents for computed tomography: a focus on micelles
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Targeted nanotechnology for cancer imaging.Ultra High-Resolution In vivo Computed Tomography Imaging of Mouse Cerebrovasculature Using a Long Circulating Blood Pool Contrast Agent.New Applications of Cardiac Computed Tomography: Dual-Energy, Spectral, and Molecular CT ImagingBiological mechanisms of gold nanoparticle radiosensitization.Nanoparticle Loaded Polymeric Microbubbles as Contrast Agents for Multimodal ImagingPolymeric Nanostructures for Imaging and TherapyNanodisco balls: control over surface versus core loading of diagnostically active nanocrystals into polymer nanoparticlesQuantitative Magnetic Particle Imaging Monitors the Transplantation, Biodistribution, and Clearance of Stem Cells In VivoDextran coated bismuth-iron oxide nanohybrid contrast agents for computed tomography and magnetic resonance imaging.Functionalized synchrotron in-line phase-contrast computed tomography: a novel approach for simultaneous quantification of structural alterations and localization of barium-labelled alveolar macrophages within mouse lung samples.Nanoimaging in cardiovascular diseases: Current state of the art.In vivo small animal micro-CT using nanoparticle contrast agents.A Strategy for Precise Treatment of Cardiac Malignant NeoplasmsRecent Advances in Targeted, Self-Assembling Nanoparticles to Address Vascular Damage Due to Atherosclerosis.CT Image Contrast of High-Z Elements: Phantom Imaging Studies and Clinical ImplicationsLabeling monocytes with gold nanoparticles to track their recruitment in atherosclerosis with computed tomography.Gold silver alloy nanoparticles (GSAN): an imaging probe for breast cancer screening with dual-energy mammography or computed tomography.Radiation dose enhancement in skin therapy with nanoparticle addition: A Monte Carlo study on kilovoltage photon and megavoltage electron beams.Synthesis, X-ray Opacity, and Biological Compatibility of Ultra-High Payload Elemental Bismuth Nanoparticle X-ray Contrast Agents.Utilization of nanoparticles as X-ray contrast agents for diagnostic imaging applications.Effect of Gold Nanoparticle Size and Coating on Labeling Monocytes for CT Tracking.Lipoproteins and lipoprotein mimetics for imaging and drug delivery.Imaging of Hsp70-positive tumors with cmHsp70.1 antibody-conjugated gold nanoparticlesThe use of hyperpolarized carbon-13 magnetic resonance for molecular imaging.Opportunities for new CT contrast agents to maximize the diagnostic potential of emerging spectral CT technologies.Use of Nanoparticle Contrast Agents for Cell Tracking with Computed Tomography.Multicolor spectral photon-counting computed tomography: in vivo dual contrast imaging with a high count rate scannerImproved sensitivity of computed tomography towards iodine and gold nanoparticle contrast agents via iterative reconstruction methods.Dual-modality, fluorescent, PLGA encapsulated bismuth nanoparticles for molecular and cellular fluorescence imaging and computed tomography.A Novel Nano-approach for Targeted Inner Ear Imaging.Lecithin-coated gold nanoflowers (GNFs) for CT scan imaging applications and biochemical parameters; in vitro and in vivo studies.Multimodal Dispersion of Nanoparticles: A Comprehensive Evaluation of Size Distribution with 9 Size Measurement Methods.Synthesis, Functionalization, and Design of Magnetic Nanoparticles for Theranostic Applications.In Vivo Micro-CT Imaging of Human Mesenchymal Stem Cells Labeled with Gold-Poly-L-Lysine Nanocomplexes.An update on nanoparticle-based contrast agents in medical imaging.Challenges and opportunities in developing targeted molecular imaging to determine inner ear defects of sensorineural hearing loss.Big Potential from Small Agents: Nanoparticles for Imaging-Based Companion Diagnostics.Evaluation of spectral photon counting computed tomography K-edge imaging for determination of gold nanoparticle biodistribution in vivo.Enhanced Plasmonic Biosensors of Hybrid Gold Nanoparticle-Graphene Oxide-Based Label-Free Immunoassay.Recent advances and future prospects of iron oxide nanoparticles in biomedicine and diagnostics.
P2860
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P2860
Nanoparticle contrast agents for computed tomography: a focus on micelles
description
2014 nî lūn-bûn
@nan
2014 թուականին հրատարակուած գիտական յօդուած
@hyw
2014 թվականին հրատարակված գիտական հոդված
@hy
2014年の論文
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2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Nanoparticle contrast agents for computed tomography: a focus on micelles
@ast
Nanoparticle contrast agents for computed tomography: a focus on micelles
@en
Nanoparticle contrast agents for computed tomography: a focus on micelles
@nl
type
label
Nanoparticle contrast agents for computed tomography: a focus on micelles
@ast
Nanoparticle contrast agents for computed tomography: a focus on micelles
@en
Nanoparticle contrast agents for computed tomography: a focus on micelles
@nl
prefLabel
Nanoparticle contrast agents for computed tomography: a focus on micelles
@ast
Nanoparticle contrast agents for computed tomography: a focus on micelles
@en
Nanoparticle contrast agents for computed tomography: a focus on micelles
@nl
P2860
P3181
P356
P1476
Nanoparticle contrast agents for computed tomography: a focus on micelles
@en
P2093
Zahi A Fayad
P2860
P3181
P356
10.1002/CMMI.1551
P407
P577
2014-01-01T00:00:00Z