Shape matters: intravital microscopy reveals surprising geometrical dependence for nanoparticles in tumor models of extravasation. - Wikidata - awgldk - TriplyDB

Shape matters: intravital microscopy reveals surprising geometrical dependence for nanoparticles in tumor models of extravasation.

Shape matters: intravital microscopy reveals surprising geometrical dependence for nanoparticles in tumor models of extravasation.

http://www.wikidata.org/entity/Q36390455

about

Fluorescent imaging of cancerous tissues for targeted surgery.Current Approaches for Improving Intratumoral Accumulation and Distribution of Nanomedicines.Targeted nanotechnology for cancer imaging.Pharmacokinetic issues of imaging with nanoparticles: focusing on carbon nanotubes and quantum dots Intravital Microscopy Imaging Approaches for Image-Guided Drug Delivery Systems Theranostic nanoparticles Enhancing Tumor Penetration of Nanomedicines.A correlative optical microscopy and scanning electron microscopy approach to locating nanoparticles in brain tumors.Radioactive 198Au-doped nanostructures with different shapes for in vivo analyses of their biodistribution, tumor uptake, and intratumoral distribution.Nanoparticle clearance is governed by Th1/Th2 immunity and strain background.Dual-modal magnetic resonance and fluorescence imaging of atherosclerotic plaques in vivo using VCAM-1 targeted tobacco mosaic virus Real-time intravital microscopy of individual nanoparticle dynamics in liver and tumors of live mice Subtumoral analysis of PRINT nanoparticle distribution reveals targeting variation based on cellular and particle properties Shaping cancer nanomedicine: the effect of particle shape on the in vivo journey of nanoparticles Development of Surface-Variable Polymeric Nanoparticles for Drug Delivery to Tumors.Cancer targeted therapeutics: From molecules to drug delivery vehicles.Ultrastructural localization of intravenously injected carbon nanohorns in tumor.Strategies for advancing cancer nanomedicine.Tumor vasculature targeting: a generally applicable approach for functionalized nanomaterials.Imaging Tumor Necrosis with Ferumoxytol Design considerations for nanotherapeutics in oncology.Challenges and opportunities in the advancement of nanomedicines.Mesenchymal stem cell-based cell engineering with multifunctional mesoporous silica nanoparticles for tumor delivery Alk5 inhibition increases delivery of macromolecular and protein-bound contrast agents to tumors.Emergence and Utility of Nonspherical Particles in Biomedicine Nanoparticle drug loading as a design parameter to improve docetaxel pharmacokinetics and efficacy Influence of Molecular Structure on the In Vivo Performance of Flexible Rod Polyrotaxanes.Mammalian cells preferentially internalize hydrogel nanodiscs over nanorods and use shape-specific uptake mechanisms.High-resolution, serial intravital microscopic imaging of nanoparticle delivery and targeting in a small animal tumor model.Diffusion and Uptake of Tobacco Mosaic Virus as Therapeutic Carrier in Tumor Tissue: Effect of Nanoparticle Aspect Ratio Carbon nanotubes in hyperthermia therapy.Singular perturbation theory for predicting extravasation of Brownian particles.Intelligent design of multifunctional lipid-coated nanoparticle platforms for cancer therapy.Nano-graphene oxide: a potential multifunctional platform for cancer therapy.Intracellular delivery of polymeric nanocarriers: a matter of size, shape, charge, elasticity and surface composition.Nanotechnological strategies for therapeutic targeting of tumor vasculature.Imaging the pharmacology of nanomaterials by intravital microscopy: Toward understanding their biological behavior.Silica Nanopills for Targeted Anticancer Drug Delivery.Vascular targeting of nanoparticles for molecular imaging of diseased endothelium.Detection of Stem Cell Transplant Rejection with Ferumoxytol MR Imaging: Correlation of MR Imaging Findings with Those at Intravital Microscopy.

P2860

Q26830905-BE5625C5-9E6F-4ECA-87F2-3B90DE84BE2B Q27002209-1D9E418E-FF2F-46DD-B0F2-DB6F1158F7ED Q27010317-BA34C729-56C9-409E-86B6-11C1F7781AF5 Q28388580-260E2B6E-9C36-4528-B752-EB186A19F2B2 Q28553638-DA25CCB6-509E-4038-9F18-B5EFBADC38BB Q28650348-0E548A87-4795-491D-8EF6-17E67657E235 Q30356887-017400B5-C59B-4229-97EC-97DA8CD24986 Q30394961-6038E9F0-E5FF-476D-9807-455E78F4DAFB Q30413615-F3E44397-A418-484F-98F8-FEE0EE7EE2AE Q30541000-F8E4C104-F644-4E36-904F-DBA49339B8AA Q30587267-034F1FF2-3833-4405-9C36-39B3B0D883B9 Q30596892-71A691B9-D800-4483-A276-C9C7894A187D Q30744724-4F1A9C95-61A3-4E44-A377-F474F6DAB530 Q33755231-D5B89F22-693F-4E7D-85E6-CECEA8636AE6 Q33870874-2531A8E1-99D4-4D13-8259-708E6A505856 Q33887986-07605A50-B9CF-49C2-ADD5-B0EFF7C2CE2E Q33968761-73396A84-888F-4232-A708-BB4E3C4E75DE Q33995719-39AD1761-8998-4547-9416-8DAEEB4C11FA Q34019838-76496B86-8C79-4E97-A287-B612B8990777 Q35841636-C1765527-BC6E-42FF-8476-0DB8D839A391 Q36236848-548E27B4-6747-40B4-9A99-B8E016FD7FBD Q36417295-6AA9E8A4-5B1B-4690-A67E-6808974FEFBF Q36511906-1F1D6535-9D62-40EE-A614-3CCA5391687B Q36892526-31A1DFF2-EB33-43C5-9F1C-5B2FB47C48CC Q36892538-5264A649-36CA-4E7B-972C-2B50D2ACEE59 Q37253857-6006BEE4-BCC2-4E81-A92A-BE607142360C Q37254486-3C2B8EFA-5816-45D3-BD8E-26300C127A47 Q37255871-9F385297-43F9-4E5C-BC0A-C3C1DF212240 Q37332604-052EEC03-95AB-4D10-AE91-13733E9EF28E Q37551472-D11F5E3F-67B9-4E5E-9745-3A8F619A5B54 Q37557801-4115F065-A944-4A0E-BEE4-5DCE2FDD7994 Q37591042-5146B857-28E9-4794-B695-6AB0C3379C49 Q38074442-155B7DAA-B927-45F1-9070-135A37D01EA7 Q38092811-014F8048-D5A1-404C-A2F9-3E61762B6B4B Q38112171-55D63F95-C677-47E5-9482-F6BB3796C5E3 Q38120320-EB41440E-7EED-4E37-8E8A-313A712DBB63 Q38856246-0AA68E2A-3D11-409F-AEB3-AA21FDA516D3 Q38861385-CCF64D34-8E44-4FC3-A2B7-D6CE0A750834 Q38957484-DD09D363-F124-4CB5-ADA4-F88CAD9B87C4 Q38995648-F88C34F4-9742-46B7-8730-1D3E7A95978E

P2860

Shape matters: intravital microscopy reveals surprising geometrical dependence for nanoparticles in tumor models of extravasation.

http://www.wikidata.org/entity/Q36390455

description

2012 nî lūn-bûn

@nan

2012年の論文

@ja

2012年学术文章

@wuu

2012年学术文章

@zh-cn

2012年学术文章

@zh-hans

2012年学术文章

@zh-my

2012年学术文章

@zh-sg

2012年學術文章

@yue

2012年學術文章

@zh

2012年學術文章

@zh-hant

name

Shape matters: intravital micr ...... tumor models of extravasation.

@ast

Shape matters: intravital micr ...... tumor models of extravasation.

@en

type

label

Shape matters: intravital micr ...... tumor models of extravasation.

@ast

Shape matters: intravital micr ...... tumor models of extravasation.

@en

prefLabel

Shape matters: intravital micr ...... tumor models of extravasation.

@ast

Shape matters: intravital micr ...... tumor models of extravasation.

@en

P1433

Q36390455-EC92EF7A-F369-4BBB-9A7E-7D8E39309D6E

P1476

Q36390455-A75E4D33-C727-4305-A82D-7A79CA351146

P2093

Q36390455-49B8732C-39CA-410E-B4BB-584C295A1725

Q36390455-A00D634C-0B17-41CF-B4A7-283DF36D21BE

Q36390455-B4AB81E1-091D-4F7E-8CA2-B2B26787D559

Q36390455-CC88163F-4761-4555-BD5F-2B70B02B5E36

P2860

Q36390455-0849CDF8-749F-41DA-A029-DC450B415438

Q36390455-129C4CAF-E27B-4483-ABEB-F157CBE7CE34

Q36390455-13381425-09A4-4A0A-ABD1-047CF9C1E5B0

Q36390455-1A9918EA-1B49-4E16-8202-8F9142E71070

Q36390455-1F7610DF-D769-496D-B6F8-FD145553DC3B

Q36390455-2A32E202-AA28-4B8A-B006-5F72BEFB1774

Q36390455-30CE7B94-2FD6-44FC-B1C9-3D4026FCCDFD

Q36390455-31B5E8E9-6EED-4970-93F7-FC8206446C74

Q36390455-40E1CE1E-1EAF-464F-BE46-8FFC7DE1B725

Q36390455-41FAA591-B120-4DAC-8576-0C478A5405F2

P304

Q36390455-86ED325A-6FD1-49F2-9097-E798A8C56138

P31

Q36390455-088889FD-4664-4BE7-A503-464FE66F23DE

P356

Q36390455-570CC917-422A-4D2B-AAD9-C5D25902A23A

P407

Q36390455-FC68A9EA-C30B-4D3E-BA06-6AA240B16126

P433

Q36390455-F47F6464-D653-46AC-A0D3-C074228E77E6

P478

Q36390455-E2999C8A-E78A-4558-A234-4881A15289CB

P50

Q36390455-3311A4D5-8552-4D2C-A28F-68FBEAE68F96

Q36390455-6652A8CB-5529-4CB3-9186-4070830935F4

Q36390455-A7B24D18-2C5B-42EF-AE7C-19EEB8176480

Q36390455-AA634CCE-7927-4594-9DBD-06433C012B6D

Q36390455-B5F9CBCD-9CF3-4560-A52B-252F198D7263

P577

Q36390455-69F27E25-86F1-42E5-BCAE-F230DBBE9DFB

P5875

Q36390455-64E56863-7893-4DC6-8B93-838364834381

P698

Q36390455-83B18AE2-E64A-4F77-B9FF-0D25112E24EC

P921

Q36390455-99DC55D3-62B0-44CF-9CEB-313EE5D56A2D

P932

Q36390455-D7B49450-1320-4A4E-8F40-0CCFBA296EB2

P356

P1433

P1476

Shape matters: intravital micr ...... tumor models of extravasation

@en

P2093

Donna Bouley

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

Nicholas Melosh

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

Robert Sinclair

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

Sanjiv Sam Gambhir

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

P2860

Physiologic upper limit of pore size in the blood-tumor barrier of malignant solid tumors

Quantum dots for live cells, in vivo imaging, and diagnostics

Carbon nanotubes as photoacoustic molecular imaging agents in living mice.

Openings between defective endothelial cells explain tumor vessel leakiness

A new concept for macromolecular therapeutics in cancer chemotherapy: mechanism of tumoritropic accumulation of proteins and the antitumor agent smancs

Nanoparticle therapeutics: an emerging treatment modality for cancer

Nanocarriers as an emerging platform for cancer therapy

Tumor vascular permeability and the EPR effect in macromolecular therapeutics: a review

Behavior of endogenous tumor-associated macrophages assessed in vivo using a functionalized nanoparticle.

Intravital microscopy: a novel tool to study cell biology in living animals

P304

3369-3377

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

P31

scholarly article

P356

10.1021/NL204175T

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

P407

P433

7

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

P478

12

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

P50

Alexander M. Xu

P577

2012-06-11T00:00:00Z

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

P5875

225085046

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

P698

22650417

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

P921

P932

3495189

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