Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model.
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Synthesis, characterization, applications, and challenges of iron oxide nanoparticles.Real-time monitoring of photocytotoxicity in nanoparticles-based photodynamic therapy: a model-based approachVascular endoluminal delivery of mesenchymal stem cells using acoustic radiation force.Magnetoliposomes as magnetic resonance imaging contrast agents.Mechanisms of nanoparticle-mediated siRNA transfection by melittin-derived peptides.Cationic Gd-DTPA liposomes for highly efficient labeling of mesenchymal stem cells and cell tracking with MRI.Nanoclusters of iron oxide: effect of core composition on structure, biocompatibility, and cell labeling efficacyCholesterol derivatives based charged liposomes for doxorubicin delivery: preparation, in vitro and in vivo characterizationA review on composite liposomal technologies for specialized drug delivery.Multicomponent folate-targeted magnetoliposomes: design, characterization, and cellular uptake.Regulation of acid-base transporters by reactive oxygen species following mitochondrial fragmentationHollow spherical nucleic acids for intracellular gene regulation based upon biocompatible silica shells.Nanoparticles and clinically applicable cell tracking.Melittin derived peptides for nanoparticle based siRNA transfection.Assessing iron oxide nanoparticle toxicity in vitro: current status and future prospects.Magnetoliposomes as multimodal contrast agents for molecular imaging and cancer nanotheragnostics.Action and reaction: the biological response to siRNA and its delivery vehicles.Biological applications of magnetic nanoparticles.Emerging role of radiolabeled nanoparticles as an effective diagnostic technique.siRNA delivery: from lipids to cell-penetrating peptides and their mimics.Magnetoliposomes and their potential in the intelligent drug-delivery field.Gold nanoparticles and fluorescently-labelled DNA as a platform for biological sensing.Merging the best of both worlds: hybrid lipid-enveloped matrix nanocomposites in drug delivery.A review of mechanistic insight and application of pH-sensitive liposomes in drug delivery.Lipid nanoparticles for gene delivery.Easy and Efficient Cell Tagging with Block Copolymer-Based Contrast Agents for Sensitive MRI Detection in Vivo.Safety assessment of nanoparticles for drug delivery by means of classic in vitro assays and beyond.Physical properties and biological interactions of liposomes developed as a drug carrier in the field of regenerative medicine.Poly-l-lysine-coated magnetic nanoparticles as intracellular actuators for neural guidanceThe cytotoxicity of polycationic iron oxide nanoparticles: common endpoint assays and alternative approaches for improved understanding of cellular response mechanism.Fluorescent magnetoliposomes as a platform technology for functional and molecular MR and optical imaging.Magnetic resonance imaging of human dental pulp stem cells in vitro and in vivo.Augmentation of adenovirus 5 vector-mediated gene transduction under physiological pH conditions by a chitosan/NaHCO3 solution.Peptide-siRNA nanocomplexes targeting NF-κB subunit p65 suppress nascent experimental arthritis.Optimization and physicochemical characterization of a cationic lipid-phosphatidylcholine mixed emulsion formulated as a highly efficient vehicle that facilitates adenoviral gene transfer.Limitations and caveats of magnetic cell labeling using transfection agent complexed iron oxide nanoparticles.Background migration of USPIO/MLs is a major drawback for in situ labeling of endogenous neural progenitor cells.Unraveling the effects of siRNA carrier systems on cell physiology: a multiparametric approach demonstrated on dextran nanogels.Dendrosome-dendriplex inside liposomes: as a gene delivery system.Evaluation of the Expression of Amyloid Precursor Protein and the Ratio of Secreted Amyloid Beta 42 to Amyloid Beta 40 in SH-SY5Y Cells Stably Transfected with Wild-Type, Single-Mutant and Double-Mutant Forms of the APP Gene for the Study of Alzheim
P2860
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P2860
Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
2009年论文
@zh
2009年论文
@zh-cn
name
Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model.
@en
Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model.
@nl
type
label
Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model.
@en
Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model.
@nl
prefLabel
Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model.
@en
Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model.
@nl
P1433
P1476
Addressing the problem of cationic lipid-mediated toxicity: the magnetoliposome model
@en
P2093
Alain R Brisson
Marcel De Cuyper
P304
P356
10.1016/J.BIOMATERIALS.2009.03.040
P577
2009-04-15T00:00:00Z