Nanoparticles as computed tomography contrast agents: current status and future perspectives. - Wikidata - awgldk - TriplyDB

Nanoparticles as computed tomography contrast agents: current status and future perspectives.

Nanoparticles as computed tomography contrast agents: current status and future perspectives.

http://www.wikidata.org/entity/Q37984484

about

Versatile Nanosystem-Based Cancer Theranostics: Design Inspiration and Predetermined Routing Molecular imaging for cancer diagnosis and surgery.Advances in Molecular Imaging Strategies for In Vivo Tracking of Immune Cells Impact of carbon nanotubes and graphene on immune cells Polymeric Nanostructures for Imaging and Therapy Antibacterial and antibiofilm properties of yttrium fluoride nanoparticles.Computed tomography imaging-guided radiotherapy by targeting upconversion nanocubes with significant imaging and radiosensitization enhancements.Derivation of attenuation map for attenuation correction of PET data in the presence of nanoparticulate contrast agents using spectral CT imaging.Potential dual imaging nanoparticle: Gd2O3 nanoparticle.Radiopaque Resorbable Inferior Vena Cava Filter Infused with Gold Nanoparticles Investigating the optimal size of anticancer nanomedicine.Gold nanoparticles in radiation research: potential applications for imaging and radiosensitization.Engineered collagen hydrogels for the sustained release of biomolecules and imaging agents: promoting the growth of human gingival cells.Tantalum oxide nanoparticles for the imaging of articular cartilage using X-ray computed tomography: visualization of ex vivo/in vivo murine tibia and ex vivo human index finger cartilage The effect of nanoparticle size on the probability to cross the blood-brain barrier: an in-vitro endothelial cell model Selective inactivation of enzymes conjugated to nanoparticles using tuned laser illumination.Advanced targeted nanomedicine Synthesis of a novel glucose capped gold nanoparticle as a better theranostic candidate.K-edge ratio method for identification of multiple nanoparticulate contrast agents by spectral CT imaging.Nano-sized CT contrast agents.Nanooncology: the future of cancer diagnosis and therapy.Multicolor computed tomographic molecular imaging with noncrystalline high-metal-density nanobeacons.Multifunctional theranostic gold nanoparticles for targeted CT imaging and photothermal therapy.Gold nanoparticles for in vivo cell tracking.Nanomedicine strategies for hematological malignancies: what is next?Gold nanoparticles as contrast agents in x-ray imaging and computed tomography.Image-guided surgery using multimodality strategy and molecular probes.Nanoparticle uptake by macrophages in vulnerable plaques for atherosclerosis diagnosis.An overview of current practice in external beam radiation oncology with consideration to potential benefits and challenges for nanotechnology.Gold nanoparticles allow detection of early-stage edema in mice via computed tomography imaging Composite silica coated gold nanosphere and quantum dots nanoparticles for X-ray CT and fluorescence bimodal imaging.Cancer-Associated, Stimuli-Driven, Turn on Theranostics for Multimodality Imaging and Therapy.Cell tracking using gold nanoparticles and computed tomography imaging.New optical sensing technique of tissue viability and blood flow based on nanophotonic iterative multi-plane reflectance measurements.Hyaluronic acid-functionalized bismuth oxide nanoparticles for computed tomography imaging-guided radiotherapy of tumor.Improved sensitivity of computed tomography towards iodine and gold nanoparticle contrast agents via iterative reconstruction methods.Cell-targeted platinum nanoparticles and nanoparticle clusters.Biodegradable iodinated polydisulfides as contrast agents for CT angiography.PEGylated hybrid ytterbia nanoparticles as high-performance diagnostic probes for in vivo magnetic resonance and X-ray computed tomography imaging with low systemic toxicity.Transport of nanoparticles through the blood-brain barrier for imaging and therapeutic applications.

P2860

Q26746171-6E33E9E5-C024-4A66-BA15-27412148D57F Q27687291-1BC7AF98-9158-4D40-8ABB-58B2EAADF1DD Q28076866-0D9ED86C-0A8E-4424-B85B-253FC77E75A1 Q28388540-07BB9E2E-5E51-4C15-BA6C-56743C037D63 Q30372383-BB1F1881-015F-4C0F-BFDB-8EDAB09FC9E9 Q30460946-4BD3B9C3-BBA9-469A-AEAD-7E9FB040D09E Q30539275-AEF9893B-1F9E-474D-A59D-338CE40A9317 Q30797025-8EDBC0B4-3F7C-4949-AA05-604EB2461F87 Q30898107-77A245C5-50B4-4B30-937E-42F1EF370B55 Q33708421-EA27EAEE-7C15-4E43-BE41-CEEFE12FE4C6 Q34442139-DB0F8F50-2EA5-435A-904E-86A87AB7A9D0 Q34563668-F0FE0410-74E3-4250-A0E2-1902477A5B61 Q34569417-66012A72-B20E-4BCC-A907-683E8A9076B4 Q35001316-787579C4-A894-40AD-B05E-599D16D7D73D Q35177868-10656C2A-212C-40AD-A058-9E8FEC78045E Q36212088-1FD833D8-91FE-42DF-9B29-3FD6205BB09F Q36388931-0ABCCC5E-339A-4BA3-8AD3-EB38495F55F2 Q36392964-ED0C8FD2-B3E5-4282-911E-9CF15718A33D Q37127173-1D77F3B3-9BB6-4678-8B83-2C4104A4DD68 Q38095868-916D5E2C-4C84-4ED8-9232-05E3CDCD8CF2 Q38151549-A1BA1F19-31ED-4312-A90C-E1949C6202C0 Q38182513-BFC79F03-A0D2-47DA-B0D7-BCED96B369CF Q38182515-8F0D17B2-2AEC-44E4-B00B-57F9F038A4E9 Q38262550-8E3A8F36-158B-4F0D-B893-297470E47B29 Q38270098-3783BED0-D3C8-4FFD-89AD-DD44C2EEA9D2 Q38324026-BEB249D3-A095-4FBD-BAC9-BCABF68FD612 Q38520183-0C8FFCFB-495E-4D1A-8AA7-7B9BE62FA097 Q38537648-28D1EF77-F609-4A1A-ABA9-EDAD59431613 Q38755412-6A6DA80E-0386-4D5A-B5E0-CD2EE270E1D6 Q38863065-8E588743-0D9A-4015-ABBC-3A4187E30A49 Q38871122-5D60BC85-88FE-4A60-8E77-819C10BEE8DC Q39216032-F6833A12-9AF6-4100-8F13-7A136DE51C33 Q39330086-4E0F9F49-F0EA-4805-A490-F85782DCC893 Q41478600-6B8AAD72-D22C-4B63-8256-21B41C657F7B Q41531976-32EE577B-BABB-4B53-8688-A9F4BE0F1474 Q41840106-A93CC7B5-4EAB-4045-94B9-B360711DA74D Q42827235-C11D5F0C-35E8-4F3D-84E4-F51E61E6F55C Q42836459-EDB1AFC9-BF64-4B72-AC7C-FB669A821EE5 Q43828825-B0C4ABEB-81F9-42D8-914A-944F70AD69B7 Q44696669-7ACB1BE6-A320-44FF-9C1C-74ED08A58577

P2860

Nanoparticles as computed tomography contrast agents: current status and future perspectives.

http://www.wikidata.org/entity/Q37984484

description

article científic

@ca

article scientifique

@fr

articol științific

@ro

articolo scientifico

@it

artigo científico

@gl

artigo científico

@pt

artigo científico

@pt-br

artikel ilmiah

@id

artikull shkencor

@sq

artículo científico

@es

name

Nanoparticles as computed tomo ...... tatus and future perspectives.

@en

Nanoparticles as computed tomo ...... tatus and future perspectives.

@nl

type

label

Nanoparticles as computed tomo ...... tatus and future perspectives.

@en

Nanoparticles as computed tomo ...... tatus and future perspectives.

@nl

prefLabel

Nanoparticles as computed tomo ...... tatus and future perspectives.

@en

Nanoparticles as computed tomo ...... tatus and future perspectives.

@nl

P1433

Q37984484-80102BBA-3A70-41BD-BDAD-67E96E1262E3

P1476

Q37984484-54BDABB4-DC60-4A1B-B479-0178C518A545

P2093

Q37984484-4EF751F3-1659-4D7D-B004-3556F573239A

Q37984484-5B597FB1-F6F5-4F4D-ADDD-51402B1C4B2A

Q37984484-B290D035-01B8-4A1A-94CA-85EFED257BD8

Q37984484-FCA58E32-6BA4-4ED0-99CB-807A9D529691

P2860

Q37984484-178085A9-48E0-4CE9-AFFE-F650D2E7B8A3

Q37984484-1EB64B66-A305-42A5-A0A8-CE3258F3CC4D

Q37984484-22319F19-E642-403B-8719-E8F1D5D4B7D3

Q37984484-23ED5B6E-7BF3-4D34-94E8-4209E8C6CE8D

Q37984484-294104F2-546C-46C9-A3A5-ED7199978830

Q37984484-2D44E8CE-1BE4-4D2A-890A-0B016D6BDDBD

Q37984484-2EC16935-0139-423D-B309-160A81A31921

Q37984484-38C99F39-FA5D-4905-A13A-66D2CB71059B

Q37984484-3B68ABF1-F12B-4BDF-A8F3-ACBEF52C0FDF

Q37984484-42DCC716-2C0F-40C5-BF2E-AAB506FBB5CD

P304

Q37984484-F78940C2-0BC0-489D-AE91-1521265EEEC2

P31

Q37984484-946F8E0F-DF41-4BCE-B4F4-E26470FBD912

P356

Q37984484-140D11D2-D89C-4BD3-B0EA-DF9A6EDE5A85

P433

Q37984484-7C770CFC-B750-43AD-8C26-95DE3D93A64A

P478

Q37984484-E4D930C4-B1E2-4D30-8D93-63D09FF48A43

P577

Q37984484-AFE4A440-B431-4172-A602-A912D88C6598

P698

Q37984484-0D4E5F69-00AF-47A4-8070-64116DD14785

P921

Q37984484-B5FAE5BB-3118-41E0-9A6C-94D53AC10056

P356

P1433

P1476

Nanoparticles as computed tomo ...... tatus and future perspectives.

@en

P2093

Malka Shilo

http://www.w3.org/2001/XMLSchema#string

Menachem Motiei

http://www.w3.org/2001/XMLSchema#string

Rachela Popovtzer

http://www.w3.org/2001/XMLSchema#string

Tobi Reuveni

http://www.w3.org/2001/XMLSchema#string

P2860

Metal-Based X-ray Contrast Media

Perspectives and opportunities for nanomedicine in the management of atherosclerosis.

Atherosclerotic plaque composition: analysis with multicolor CT and targeted gold nanoparticles.

Radiopaque iodinated polymeric nanoparticles for X-ray imaging applications.

Influence of anchoring ligands and particle size on the colloidal stability and in vivo biodistribution of polyethylene glycol-coated gold nanoparticles in tumor-xenografted mice

Gold nanotags for combined multi-colored Raman spectroscopy and x-ray computed tomography.

Gold nanoparticles for biology and medicine.

Bombesin functionalized gold nanoparticles show in vitro and in vivo cancer receptor specificity.

Synthesis, characterization, and computed tomography imaging of a tantalum oxide nanoparticle imaging agent.

Nanotechnology in head and neck cancer: the race is on.

P304

257-269

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.2217/NNM.11.190

http://www.w3.org/2001/XMLSchema#string

P433

2

http://www.w3.org/2001/XMLSchema#string

P478

7

http://www.w3.org/2001/XMLSchema#string

P577

2012-02-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

22339135

http://www.w3.org/2001/XMLSchema#string

P921