about
Straightforward thiol-mediated protein labelling with DTPA: Synthesis of a highly active 111In-annexin A5-DTPA tracerXTEN as Biological Alternative to PEGylation Allows Complete Expression of a Protease-Activatable Killin-Based CytostaticMonitoring stroke progression: in vivo imaging of cortical perfusion, blood-brain barrier permeability and cellular damage in the rat photothrombosis model.Electrostatically Stabilized Magnetic Nanoparticles - An Optimized Protocol to Label Murine T Cells for in vivo MRILA-ICP-MS Allows Quantitative Microscopy of Europium-Doped Iron Oxide Nanoparticles and is a Possible Alternative to Ambiguous Prussian Blue Iron Staining.Certain types of iron oxide nanoparticles are not suited to passively target inflammatory cells that infiltrate the brain in response to strokeBioresponsive nanosensors in medical imaging.Direct coupling of annexin A5 to VSOP yields small, protein-covered nanoprobes for MR imaging of apoptosis.Determination of blood circulation times of superparamagnetic iron oxide nanoparticles by T2* relaxometry using ultrashort echo time (UTE) MRI.Visualization of cell death in mice with focal cerebral ischemia using fluorescent annexin A5, propidium iodide, and TUNEL staining.Synthesis of europium-doped VSOP, customized enhancer solution and improved microscopy fluorescence methodology for unambiguous histological detection.Comparison of the iron oxide-based blood-pool contrast medium VSOP-C184 with gadopentetate dimeglumine for first-pass magnetic resonance angiography of the aorta and renal arteries in pigs.Linking proteins with anionic nanoparticles via protamine: ultrasmall protein-coupled probes for magnetic resonance imaging of apoptosis.Application of Europium-Doped Very Small Iron Oxide Nanoparticles to Visualize Neuroinflammation with MRI and Fluorescence Microscopy.Synthesis of acid-stabilized iron oxide nanoparticles and comparison for targeting atherosclerotic plaques: evaluation by MRI, quantitative MPS, and TEM alternative to ambiguous Prussian blue iron staining.Combined in situ zymography, immunofluorescence, and staining of iron oxide particles in paraffin-embedded, zinc-fixed tissue sections.
P50
Q21195725-9A32241C-101E-47CA-A42C-0530C66C8032Q28550226-8A27C235-774A-42B5-90D2-F2491D01F229Q30609109-D407380B-8FC2-41A0-B2D7-66F441D05FD6Q35619419-B63702A6-FDD8-4909-BBFC-5DA27272C09BQ36053271-765FABEE-ED30-492A-8C60-AB23DD63652AQ36839949-C57C0D8E-FAD2-4D7D-996F-7AA4AFB90BA2Q37619125-DC9E8AC0-674B-4764-8E78-AD6EE5EF217BQ39214883-FDAB669D-6BC7-42FD-92B5-C0D9096FA77AQ40788738-18E4A1EC-2C51-4AF9-B7D4-869C209E5A20Q41829834-E60E50F5-953C-4961-B15A-589802897931Q42374097-1663F46D-DF51-4F0E-81F6-A4B4198AF809Q45016853-18BCDAB8-7D6F-4E8E-9215-5973F91E6D0AQ46802598-850A6DFA-0DAD-41B2-9EF5-C56D9018CB1DQ47898730-20700145-8866-4FC5-810F-D6B5EA030F21Q50217728-4C1865A6-7C4D-4209-A767-BBF47B8D2FD8Q50241675-F429017F-ACBD-4126-AF5D-6F0D37B85679
P50
name
Eyk Schellenberger
@ast
Eyk Schellenberger
@en
Eyk Schellenberger
@es
Eyk Schellenberger
@nl
type
label
Eyk Schellenberger
@ast
Eyk Schellenberger
@en
Eyk Schellenberger
@es
Eyk Schellenberger
@nl
prefLabel
Eyk Schellenberger
@ast
Eyk Schellenberger
@en
Eyk Schellenberger
@es
Eyk Schellenberger
@nl