Florence Gazeau

Glucose-receptor MR imaging of tumors: study in mice with PEGylated paramagnetic niosomes.

In vivo cellular imaging of magnetically labeled hybridomas in the spleen with a 1.5-T clinical MRI system.

Iron oxide nanoparticle-labeled rat smooth muscle cells: cardiac MR imaging for cell graft monitoring and quantitation.

T-cell homing to the pancreas in autoimmune mouse models of diabetes: in vivo MR imaging.

Generation of superparamagnetic liposomes revealed as highly efficient MRI contrast agents for in vivo imaging.

Controlled clustering of superparamagnetic nanoparticles using block copolymers: design of new contrast agents for magnetic resonance imaging.

Phenotypic study of human gingival fibroblasts labeled with superparamagnetic anionic nanoparticles.

Magnetic targeting of magnetoliposomes to solid tumors with MR imaging monitoring in mice: feasibility.

Fluorescence-modified superparamagnetic nanoparticles: intracellular uptake and use in cellular imaging.

In vivo cellular imaging of lymphocyte trafficking by MRI: a tumor model approach to cell-based anticancer therapy.

Size-sorted anionic iron oxide nanomagnets as colloidal mediators for magnetic hyperthermia.

Magnetic targeting of rhodamine-labeled superparamagnetic liposomes to solid tumors: in vivo tracking by fibered confocal fluorescence microscopy.

Magnetic targeting of nanometric magnetic fluid loaded liposomes to specific brain intravascular areas: a dynamic imaging study in mice.

Intracellular heating of living cells through Néel relaxation of magnetic nanoparticles.

Tumour cell toxicity of intracellular hyperthermia mediated by magnetic nanoparticles.

In vivo imaging of transplanted hepatocytes with a 1.5-T clinical MRI system--initial experience in mice.

Aortic aneurysms in a rat model: in vivo MR imaging of endovascular cell therapy.

Intracellular trafficking of magnetic nanoparticles to design multifunctional biovesicles.

Universal cell labelling with anionic magnetic nanoparticles.

Optimizing magnetic nanoparticle design for nanothermotherapy.

In vivo single cell detection of tumor-infiltrating lymphocytes with a clinical 1.5 Tesla MRI system.

Magnetic targeting of iron-oxide-labeled fluorescent hepatoma cells to the liver.

Formation of a three-dimensional multicellular assembly using magnetic patterning.

High-resolution 1.5-Tesla magnetic resonance imaging for tissue-engineered constructs: a noninvasive tool to assess three-dimensional scaffold architecture and cell seeding.

The MRI assessment of intraurethrally--delivered muscle precursor cells using anionic magnetic nanoparticles.

Magnetic micro-manipulations to probe the local physical properties of porous scaffolds and to confine stem cells.

The role of cell-released microvesicles in the intercellular transfer of magnetic nanoparticles in the monocyte/macrophage system.

Magnetic tagging of cell-derived microparticles: new prospects for imaging and manipulation of these mediators of biological information.

Degradability of superparamagnetic nanoparticles in a model of intracellular environment: follow-up of magnetic, structural and chemical properties.

Doxorubicin release triggered by alginate embedded magnetic nanoheaters: a combined therapy.

Long term in vivo biotransformation of iron oxide nanoparticles.

Magnetic labeling, imaging and manipulation of endothelial progenitor cells using iron oxide nanoparticles.

Cell sorting by endocytotic capacity in a microfluidic magnetophoresis device.

Magnetically induced hyperthermia: size-dependent heating power of γ-Fe(2)O(3) nanoparticles.

Linear patterning of magnetically labeled Dictyostelium cells to display confined development.

Nanomagnetism reveals the intracellular clustering of iron oxide nanoparticles in the organism.

Can magnetic targeting of magnetically labeled circulating cells optimize intramyocardial cell retention?

Cellular transfer of magnetic nanoparticles via cell microvesicles: impact on cell tracking by magnetic resonance imaging.

Nanomagnetic sensing of blood plasma protein interactions with iron oxide nanoparticles: impact on macrophage uptake.

Endothelial cell-derived microparticles loaded with iron oxide nanoparticles: feasibility of MR imaging monitoring in mice.

Water-soluble iron oxide nanocubes with high values of specific absorption rate for cancer cell hyperthermia treatment.

Adipose tissue macrophages: MR tracking to monitor obesity-associated inflammation.

How cellular processing of superparamagnetic nanoparticles affects their magnetic behavior and NMR relaxivity.

Magnetophoresis at the nanoscale: tracking the magnetic targeting efficiency of nanovectors.

Ultra magnetic liposomes for MR imaging, targeting, and hyperthermia.

Intercellular carbon nanotube translocation assessed by flow cytometry imaging.

Cooperative organization in iron oxide multi-core nanoparticles potentiates their efficiency as heating mediators and MRI contrast agents.

Managing magnetic nanoparticle aggregation and cellular uptake: a precondition for efficient stem-cell differentiation and MRI tracking.

Real-time high-resolution magnetic resonance tracking of macrophage subpopulations in a murine inflammation model: a pilot study with a commercially available cryogenic probe.

Design of biomimetic vascular grafts with magnetic endothelial patterning.

[Magnetic nanoparticles as tools for cell therapy].

Endowing carbon nanotubes with superparamagnetic properties: applications for cell labeling, MRI cell tracking and magnetic manipulations.

Biodegradation of iron oxide nanocubes: high-resolution in situ monitoring.

Magnetic and photoresponsive theranosomes: translating cell-released vesicles into smart nanovectors for cancer therapy.

Cell-derived vesicles as a bioplatform for the encapsulation of theranostic nanomaterials.

High-Resolution Cellular MRI: Gadolinium and Iron Oxide Nanoparticles for in-Depth Dual-Cell Imaging of Engineered Tissue Constructs.