MRI of the basement membrane using charged nanoparticles as contrast agents
about
Biocompatibility of ferritin-based nanoparticles as targeted MRI contrast agents.Measuring the intrarenal distribution of glomerular volumes from histological sections.Use of Cationized Ferritin Nanoparticles to Measure Renal Glomerular Microstructure with MRI.Phenotyping by magnetic resonance imaging nondestructively measures glomerular number and volume distribution in mice with and without nephron reductionMRI-based glomerular morphology and pathology in whole human kidneysCationized ferritin as a magnetic resonance imaging probe to detect microstructural changes in a rat model of non-alcoholic steatohepatitis.MRI-detectable nanoparticles: the potential role in the diagnosis of and therapy for chronic kidney disease.Estimation of total glomerular number using an integrated disector method in embryonic and postnatal kidneys.MRI tools for assessment of microstructure and nephron function of the kidney.Four-dimensional MRI of renal function in the developing mouse.Live nephron imaging by MRI.Current MRI techniques for the assessment of renal diseasePolycation-siRNA nanoparticles can disassemble at the kidney glomerular basement membrane.Strategies for Target-Specific Contrast Agents for Magnetic Resonance ImagingThe emerging role of MRI in quantitative renal glomerular morphology.Wireless amplified nuclear MR detector (WAND) for high-spatial-resolution MR imaging of internal organs: preclinical demonstration in a rodent model.Ferritins as nanoplatforms for imaging and drug deliveryModified natural nanoparticles as contrast agents for medical imaging.Principles and emerging applications of nanomagnetic materials in medicine.Why and how we determine nephron number.Combining new tools to assess renal function and morphology: a holistic approach to study the effects of aging and a congenital nephron deficit.Lipoproteins and lipoprotein mimetics for imaging and drug delivery.Nanomedicines for kidney diseases.The effect of cryoprotection on the use of PLGA encapsulated iron oxide nanoparticles for magnetic cell labeling.Measuring rat kidney glomerular number and size in vivo with MRI.Polymer-brush-afforded SPIO Nanoparticles Show a Unique Biodistribution and MR Imaging Contrast in Mouse Organs.Quantification of glomerular number and size distribution in normal rat kidneys using magnetic resonance imaging.Measuring glomerular number and size in perfused kidneys using MRI.Is acute kidney injury a harbinger for chronic kidney disease?Self-degrading, MRI-detectable hydrogel sensors with picomolar target sensitivity
P2860
Q30276990-5E837FEE-D027-4E24-A46D-4A1B0EE512BAQ30277139-C93D7644-A0CB-4775-BAEF-40E0C559114AQ30277899-753E02A8-0464-43EF-B929-D7B702E22DD1Q30357389-54695E41-2AAE-44D3-9351-889F7DDA780DQ30389404-5CCA3254-C2AF-476D-83E8-97796E5CFBC0Q30426246-3DB65E99-4182-4BA7-BECA-F1A949A539BFQ30457123-663CFB30-87A2-446E-85B4-58DEC48C3FBAQ30624598-63050903-E075-4AAE-B1D8-794864BFAF5EQ31130873-54F93B4B-1BA6-41B2-8A20-AA11AAAD899BQ34051431-40530216-91EF-4D6C-9357-D4B2803052BBQ34519255-6BCDB497-4886-49F0-B96A-72021CF0752BQ35742620-2F90346D-878F-4D8C-AA9D-2398A807B689Q35778918-F9CD45AF-C6F1-44DD-8756-F38B9BEB99B9Q36517070-4F35C894-5FD9-448C-9623-4B9C6FEC64D6Q36836220-94A9F177-921E-43F6-8E0C-2AB1B7852F6CQ36946487-509D6B70-555C-444D-8CC7-D55F07039CDBQ36948081-D7AF5683-C84C-4A73-8094-EDA54ED56A32Q37629944-775C6EC1-AC44-49C9-8A75-618A085789FDQ38001396-EE0FC10E-DD1D-4BE8-9FAD-D3EF584F3B39Q38136090-82CB4786-49B5-4C34-BE0D-CCE234BB37E3Q38704034-51FF3978-CF28-4ED7-92E4-280FBE3F0664Q38822339-0D8ADCB4-88AF-4AD9-993E-00CD5046A788Q38862723-FF39BD46-EB0A-4259-9B44-61EEED9CBD9BQ41110597-29DC5EFC-ACE4-460D-91D4-5FDB1392FBF4Q45071584-51267236-C5C8-4A14-B30F-0E380A7D4B77Q47094946-B0BC9F05-5DAF-42DB-BC2F-8A729D884A3CQ47373114-50C6441D-312B-4C0A-BBE1-6D4F9824F19CQ47386210-C444FEA7-4164-41E0-AACA-8B8E332722D9Q49492106-EA2D5CA1-8104-4AB1-9754-54FD18E3D346Q57344088-8248EDB0-B33F-4606-971D-B0AC54453619
P2860
MRI of the basement membrane using charged nanoparticles as contrast agents
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
MRI of the basement membrane using charged nanoparticles as contrast agents
@en
type
label
MRI of the basement membrane using charged nanoparticles as contrast agents
@en
prefLabel
MRI of the basement membrane using charged nanoparticles as contrast agents
@en
P2093
P2860
P356
P1476
MRI of the basement membrane using charged nanoparticles as contrast agents
@en
P2093
Alan P Koretsky
James P Sumner
Kevin M Bennett
Nadia Bouraoud
Robert A Star
Stephen J Dodd
P2860
P304
P356
10.1002/MRM.21684
P577
2008-09-01T00:00:00Z