about
Multimodal imaging of a humanized orthotopic model of hepatocellular carcinoma in immunodeficient mice.Design and production of nanoparticles formulated from nano-emulsion templates-a review.Integrity of lipid nanocarriers in bloodstream and tumor quantified by near-infrared ratiometric FRET imaging in living miceTrojan microparticles for drug delivery.Iodinated blood pool contrast media for preclinical X-ray imaging applications--a review.Inorganic nanoparticles based contrast agents for X-ray computed tomography.Nanotechnology for computed tomography: a real potential recently disclosed.Microfluidics: a focus on improved cancer targeted drug delivery systems.Thermosensitive chitosan/glycerophosphate-based hydrogel and its derivatives in pharmaceutical and biomedical applications.Contrast agents for preclinical targeted X-ray imaging.Production of nanoparticle drug delivery systems with microfluidics tools.Biodistribution and Toxicity of X-Ray Iodinated Contrast Agent in Nano-emulsions in Function of Their Size.Microfluidic nanoprecipitation systems for preparing pure drug or polymeric drug loaded nanoparticles: an overview.Photopolymerized micelles of diacetylene amphiphile: physical characterization and cell delivery properties.Microfluidic conceived pH sensitive core-shell particles for dual drug delivery.Microfluidic conceived drug loaded Janus particles in side-by-side capillaries device.Microfluidic conceived Trojan microcarriers for oral delivery of nanoparticles.Microencapsulation of nanoemulsions: novel Trojan particles for bioactive lipid molecule delivery.Low-energy nanoemulsification to design veterinary controlled drug delivery devices.Non-invasive quantitative imaging of hepatocellular carcinoma growth in mice by micro-CT using liver-targeted iodinated nano-emulsions.Reverse micelle-loaded lipid nano-emulsions: new technology for nano-encapsulation of hydrophilic materials.Nanoparticles by spray drying using innovative new technology: the Büchi nano spray dryer B-90.Continuous-flow encapsulation of ketoprofen in copolymer microbeads via co-axial microfluidic device: influence of operating and material parameters on drug carrier properties.Rheological study of chitosan/polyol-phosphate systems: influence of the polyol part on the thermo-induced gelation mechanism.Targeted imaging.One-step synthesis of iron oxide polypyrrole nanoparticles encapsulating ketoprofen as model of hydrophobic drug.Functionalizing Nanoemulsions with Carboxylates: Impact on the Biodistribution and Pharmacokinetics in Mice.A new method for the formulation of double nanoemulsions.Microfluidic-Assisted Production of Size-Controlled Superparamagnetic Iron Oxide Nanoparticles-Loaded Poly(methyl methacrylate) Nanohybrids.Counterion-enhanced cyanine dye loading into lipid nano-droplets for single-particle tracking in zebrafish.Different surface corrugations occurring during drainage of axisymmetric thin liquid films.Pegylated nanocapsules produced by an organic solvent-free method: Evaluation of their stealth properties.Poly(ethylene glycol)-poly(ε-caprolactone) iodinated nanocapsules as contrast agents for X-ray imaging.Pickering nano-emulsion as a nanocarrier for pH-triggered drug releaseInorganic Nanoparticles for X-Ray Computed Tomography ImagingBiodistribution of X-Ray Iodinated Contrast Agent in Nano-Emulsions Is Controlled by the Chemical Nature of the Oily CoreQuantifying Release from Lipid Nanocarriers by Fluorescence Correlation SpectroscopyRadiopaque iodinated nano-emulsions for preclinical X-ray imagingEngineering Polymer Microparticles by Droplet MicrofluidicsMagnetite- and Iodine-Containing Nanoemulsion as a Dual Modal Contrast Agent for X-ray/Magnetic Resonance Imaging
P50
Q30822612-B43D74E7-83DE-4D0B-9D44-78F90C3123EDQ37122212-71F806F3-ABDF-4686-86D9-29B35FEE1CDFQ37142585-6077D352-BC24-431F-B8F8-70BF5244E631Q37327818-AA08B091-E7AE-454F-9CB2-5010B308CECCQ37761442-101F1D58-FF18-4256-A462-9975AC7444D5Q38062896-51E3D5B4-B273-4891-9ED3-8A02AF9035BBQ38125076-4CB63F8B-36AF-47EB-AE47-E49644242160Q38128134-F34DC413-054F-449B-A93E-5DCB0C54A821Q38168579-C2AFB097-305C-482A-A43E-96556E263968Q38236269-B7F176FE-B652-46B7-B232-4089BE613725Q38262775-4E39472D-9289-427A-B1F7-7EE63FD8223DQ38824053-9E360D46-10BD-46D3-9B0E-5AA1E9FDCBC8Q38851345-AD15B259-5A33-44BA-AB99-6BC6CE3D43E5Q38861657-F9782366-38FE-412F-A3BF-48EB8594074DQ38948678-BC4E7954-AFB3-4601-AAF6-0BF63641B184Q38982145-C3630857-C448-4C91-ABD4-C1523D1679BAQ41604834-B4F533C8-BC09-41B6-B8AD-1CCCBF14B07BQ41857014-5ABE4443-1DBD-4476-A6CC-4D4690759D2AQ42398265-2397DDD1-F14B-4A3B-A4FF-9BB0A175A1DBQ42636955-30C8D98D-70A5-47C1-8436-C0CE38820FC2Q42950609-A7022E8C-72E6-4FC1-BE81-91E42307EB85Q42957788-210E29A6-3FB9-4910-81F6-4E4A8A7DA97FQ43879005-3A3E3DBB-B621-46BF-913B-6B21A8AEE431Q45227282-C2F3D20F-A7CA-450B-8C73-253F632C3C7CQ45301274-DD9526FD-EECF-4C28-A78B-738AD26F4535Q46639035-019704E3-AFE3-4946-9B70-21633E44E79AQ46718581-7ED26870-3AB6-479C-A70E-CD4E2F23BBC2Q48048474-1EB8F438-D2AE-4C82-A62F-40FEEA732615Q48242399-7B4E7F66-BAD2-433B-A59B-C5C492136AB0Q50620655-3A170223-9F21-4662-B4DF-36C38C2EEBF4Q50980675-4EE861C6-1604-427A-A6E3-EEB0C2CE2219Q51934049-31BF21CF-0ED6-4C25-9CA3-DA21BE30CD7CQ53111553-022A27D6-7144-4272-BCA0-294D7E22FD51Q56980942-6C0D1928-FDD9-4C4A-BB5A-AF87BB435D47Q57498229-20396588-7B49-44AA-99EE-47BE87064F8AQ58209010-ADC01103-912A-4525-B347-F071D1A57D7DQ58580894-B7C6E046-B238-4468-8DC3-835DCAC9BA1AQ60035860-1A90FF62-8B74-4298-B0A5-4BD608EC65C3Q60156694-C6C86EA6-F6F3-4C29-A9CC-461A956CEF91Q63972399-69443170-6B87-42BA-8045-68273BFC4537
P50
description
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Nicolas Anton
@ast
Nicolas Anton
@en
Nicolas Anton
@es
Nicolas Anton
@nl
type
label
Nicolas Anton
@ast
Nicolas Anton
@en
Nicolas Anton
@es
Nicolas Anton
@nl
prefLabel
Nicolas Anton
@ast
Nicolas Anton
@en
Nicolas Anton
@es
Nicolas Anton
@nl
P106
P21
P214
159149717393310950919
P31
P496
0000-0002-7047-9657