about
Multiwalled carbon nanotube hybrids as MRI contrast agentsNoninvasive Imaging of Nanomedicines and Nanotheranostics: Principles, Progress, and Prospects.Nanoparticle-based systems for T(1)-weighted magnetic resonance imaging contrast agentsGadolinium-based nanoparticles for theranostic MRI-radiosensitizationSelective magnetic resonance imaging of magnetic nanoparticles by acoustically induced rotary saturation.Nanoparticles in magnetic resonance imaging: from simple to dual contrast agentsDesign of a novel class of protein-based magnetic resonance imaging contrast agents for the molecular imaging of cancer biomarkersMolecular imaging of EGFR/HER2 cancer biomarkers by protein MRI contrast agentsMagnetization transfer prepared gradient echo MRI for CEST imagingRecent progress on magnetic iron oxide nanoparticles: synthesis, surface functional strategies and biomedical applicationsImaging strategies for tissue engineering applications.Perspectives and opportunities for nanomedicine in the management of atherosclerosis.Controlled intracellular self-assembly of gadolinium nanoparticles as smart molecular MR contrast agentsHyperfine coupling constants on inner-sphere water molecules of Gd(III)-based MRI contrast agents.New simulation approach using classical formalism to water nuclear magnetic relaxation dispersions in presence of superparamagnetic particles used as MRI contrast agents.Gd2O3 nanoparticles: size-dependent nuclear magnetic resonance.Gd(DOTAla): a single amino acid Gd-complex as a modular tool for high relaxivity MR contrast agent development.MRI tracking of macrophages labeled with glucan particles entrapping a water insoluble paramagnetic Gd-based agent.Synthesis and characterization of an MRI Gd-based probe designed to target the translocator protein.Self-aggregated dinuclear lanthanide(III) complexes as potential bimodal probes for magnetic resonance and optical imaging.Strategies for optimizing water-exchange rates of lanthanide-based contrast agents for magnetic resonance imaging.General protocol for the synthesis of functionalized magnetic nanoparticles for magnetic resonance imaging from protected metal-organic precursors.Redox- and hypoxia-responsive MRI contrast agents.Gd-Al co-doped mesoporous silica nanoparticles loaded with Ru(bpy)₃²⁺ as a dual-modality probe for fluorescence and magnetic resonance imaging.Insights on the relaxation of liposomes encapsulating paramagnetic Ln-based complexes.A bis(pyridine N-oxide) analogue of DOTA: relaxometric properties of the Gd(III) complex and efficient sensitization of visible and NIR-emitting lanthanide(III) cations including Pr(III) and Ho(III).MR imaging probes: design and applications.High relaxivity Mn(2+)-based MRI contrast agents.Design and optimization of lipid-modified poly(amidoamine) dendrimer coated iron oxide nanoparticles as probes for biomedical applications.Employing Tryptone as a General Phase Transfer Agent to Produce Renal Clearable Nanodots for Bioimaging.A water-soluble and water-coordinated Mn(II) complex: synthesis, characterization and phantom MRI image study.Visualization of delayed release of compounds from pH-sensitive capsules in vitro and in vivo in a hamster model.Exceptionally Inert Lanthanide(III) PARACEST MRI Contrast Agents Based on an 18-Membered Macrocyclic Platform.Geometrically confined ultrasmall gadolinium oxide nanoparticles boost the T(1) contrast ability.Synthesis and characterisation of bismacrocyclic DO3A-amide derivatives - an approach towards metal-responsive PARACEST agents.A New Ir-NHC Catalyst for Signal Amplification by Reversible Exchange in D2 O.Paramagnetic lanthanide chelates for multicontrast MRI.Structure and dysprosium dopant engineering of gadolinium oxide nanoparticles for enhanced dual-modal magnetic resonance and fluorescence imaging.Dissociation kinetics of Mn2+ complexes of NOTA and DOTA.Activatable T₁ and T₂ magnetic resonance imaging contrast agents
P2860
Q26740054-6ABE5DFE-FFA4-4786-A368-64DE6D328782Q26822871-F2EF837A-15A3-4EBA-9C34-FCAF01825768Q26824262-47770CBD-2031-480F-B7F8-1A5F4D1CF34FQ27027308-EF57CC8C-BB47-4381-AF16-D512099C19ADQ27332318-B271EB5B-25D1-4C97-98A1-371E6D35805EQ28082690-F76D517A-0DE5-4908-9065-8114B0657788Q28283802-171B53D7-EC2D-486C-8C41-9DA406A46026Q28304646-2CE780B6-3274-4ECE-B8C6-888D96C5EA70Q28544826-2352D30A-C2E2-486C-B4F6-F92165ECB5C7Q30369384-67E841BB-3AB1-4324-A730-E8AC99A1AD00Q30392079-C6EECD9D-D63E-4861-A98D-47AD8E91F148Q30455490-D6D4F732-7BE9-45F8-B664-005DC50D52F0Q30531105-73629B3B-3519-409A-BBB0-403CDCD4F3C6Q30559561-91CFAA86-EC81-4C63-9B5C-1F510F4E725FQ30569793-31D93F18-8D47-4DA1-902B-71C3D045267BQ30575279-B6286D0F-CD08-48B0-AFBD-90EA85BD25E2Q30577667-D2ADC95B-9B7E-4A94-971B-D7F5C5E1B4C1Q30578470-A716112D-A0A1-44DE-93E8-426F24F13C2EQ30585376-7D585950-326C-476B-8217-407D67324C8CQ30654757-0242CD53-1806-4C5B-845B-9D120BA9D0C9Q30660032-19AB8589-367C-4B44-8512-C8D6BA447D12Q30810350-23ECB3B7-E5DF-4BE0-8086-318058C3BE2DQ30820031-7D204470-A800-47C5-9D96-18850E16BA1EQ30837679-191C7F69-5A1F-4E41-AECB-922A63041C6AQ30847397-9F1FFE27-7476-49D1-8B67-8DA8688027E7Q30853705-FB6D336B-0595-4FDF-ADD7-375A8D246887Q30868199-E5845CB0-4B97-46AA-86D0-2C3B172B632FQ30868530-F69BCD0C-F6CF-4A80-BF3B-B8A2CF0A3B35Q30917699-C1E6C432-3E84-4B7B-9130-B20A18F2BAFCQ30939919-622AEC6A-8D10-41EA-9534-019F72CEA009Q30978230-8408301E-25AB-4A1C-8DA2-473E0988A458Q30981424-4CF8362F-53FD-4DE5-931F-F55B4F83FFE0Q31018158-AA1ABA03-F58C-45BE-8A26-8B9033B1E8B2Q31040215-498D6C97-9ECA-4A13-81D8-FA2179F5E7D7Q31054800-04F85EFC-AFA6-4E5F-AD53-DC75CB1A37D9Q31105391-AB748F88-1771-4FA9-B31C-F7176864C149Q31107495-337C7E8C-786E-4E93-92EB-134AB58FDB40Q31159248-0548EFA7-6146-4215-8451-E3BEFB4E6BFFQ33805938-4814654F-F87A-4343-AE1A-E5B9C5E3F8CFQ33823740-7804E4BA-97D4-4CF9-95C3-5D150C2B625D
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on May 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Challenges for molecular magnetic resonance imaging.
@en
Challenges for molecular magnetic resonance imaging.
@nl
type
label
Challenges for molecular magnetic resonance imaging.
@en
Challenges for molecular magnetic resonance imaging.
@nl
prefLabel
Challenges for molecular magnetic resonance imaging.
@en
Challenges for molecular magnetic resonance imaging.
@nl
P50
P356
P1433
P1476
Challenges for molecular magnetic resonance imaging.
@en
P2093
Alessandra Viale
P304
P356
10.1021/CR100025T
P577
2010-05-01T00:00:00Z