Water proton MR properties of human blood at 1.5 Tesla: magnetic susceptibility, T(1), T(2), T*(2), and non-Lorentzian signal behavior.
about
Susceptibility-Weighted Imaging: Technical Aspects and Clinical Applications, Part 1Time-resolved MRI oximetry for quantifying CMRO(2) and vascular reactivityQuantitative Susceptibility Mapping-Based Microscopy of Magnetic Resonance Venography (QSM-mMRV) for In Vivo Morphologically and Functionally Assessing Cerebromicrovasculature in Rat Stroke ModelCompact NMR relaxometry of human blood and blood componentsAccelerated and navigator-gated look-locker imaging for cardiac T1 estimation (ANGIE): Development and application to T1 mapping of the right ventricle.Advances in functional and structural imaging of the human lung using proton MRI.Blood oxygenation level-dependent (BOLD)-based techniques for the quantification of brain hemodynamic and metabolic properties - theoretical models and experimental approaches.Cerebral blood volume MRI with intravascular superparamagnetic iron oxide nanoparticles.On the role of neuronal magnetic susceptibility and structure symmetry on gradient echo MR signal formation.Magnetic susceptibility induced white matter MR signal frequency shifts--experimental comparison between Lorentzian sphere and generalized Lorentzian approachesThe physics of functional magnetic resonance imaging (fMRI).Improved accuracy of human cerebral blood perfusion measurements using arterial spin labeling: accounting for capillary water permeability.MR vascular fingerprinting: A new approach to compute cerebral blood volume, mean vessel radius, and oxygenation maps in the human brain.Cluster analysis of muscle functional MRI data.3D high spectral and spatial resolution imaging of ex vivo mouse brainThe effect of dissolved oxygen on the susceptibility of blood.Susceptibility-based time-resolved whole-organ and regional tissue oximetry.MRI-based methods for quantification of the cerebral metabolic rate of oxygenNormal saline as a natural intravascular contrast agent for dynamic perfusion-weighted MRI of the brain: Proof of concept at 1.5T.Contribution of iron and protein contents from rat brain subcellular fractions to MR phase imaging.Human whole blood 1 H2 O transverse relaxation with gadolinium-based contrast reagents: Magnetic susceptibility and transmembrane water exchange.Overview of quantitative susceptibility mapping.Assessment of T1 and T2* effects in vivo and ex vivo using iron oxide nanoparticles in steady state--dependence on blood volume and water exchange.High spectral and spatial resolution MRI of age-related changes in murine prostate.Susceptibility-weighted imaging: clinical angiographic applications.Biophysical mechanisms of phase contrast in gradient echo MRI.Protein-induced water 1H MR frequency shifts: contributions from magnetic susceptibility and exchange effectsParametric dependence of myocardial blood oxygen level dependent, balanced steady-state free-precession imaging at 1.5 T: theory and experimentsMeasuring venous blood oxygenation in fetal brain using susceptibility-weighted imagingEvaluation of cuff-induced ischemia in the lower extremity by magnetic resonance oximetry.Characterizing pulmonary blood flow distribution measured using arterial spin labeling.Absence of a significant extravascular contribution to the skeletal muscle BOLD effect at 3 T.Transmembrane dynamics of water exchange in human brain.Investigating the magnetic susceptibility properties of fresh human blood for noninvasive oxygen saturation quantificationQuantitative MR estimates of blood oxygenation based on T2*: a numerical study of the impact of model assumptions.Rapid intravenous infusion of 20 mL/kg saline alters the distribution of perfusion in healthy supine humansRed blood cell magnetophoresis.Hyperthermically induced changes in high spectral and spatial resolution MR images of tumor tissue--a pilot studyGlobal intravascular and local hyperoxia contrast phase-based blood oxygenation measurementsBlood oxygen level dependent angiography (BOLDangio) and its potential applications in cancer research.
P2860
Q22064541-513E4DAE-0392-4BD9-8C53-516679BA3691Q27001480-3A30D3C8-EF12-416D-B323-B493322EA2ADQ27321118-EE2874D1-5E0F-47C0-8366-605285181AA3Q28817107-136669B2-B5F4-49C9-9556-CFFE057FBA65Q30361829-4793B58B-05CF-44A1-B152-8DBAEB80F2EDQ30366067-805A49B7-58CC-4C3C-B5BE-7698439B315FQ30559555-597D164F-FB79-45B9-9531-3273CA1691FCQ30580013-E0420961-CD0A-4644-9E84-42D4CBDC7277Q30586998-4747FDA2-B034-49BA-A54D-B5F5C579DB89Q30620798-C6479D18-9DE1-4922-9E78-E7F4ACDED95EQ30665074-C08103D6-DDD5-4BC8-82DB-F3880D14C5F1Q30703110-8562445B-1E96-4115-9CE3-6F8F1E9ACC29Q30711812-952F2A1C-E21A-4BA4-A949-3B63A560E364Q30797020-228F18E9-B2DD-4141-9C5A-B2407742B3AAQ30903353-9B745D12-9E4E-4019-9290-CEF267CB54CFQ30907593-66899FAE-DBB1-412A-82FB-46029B300C5BQ31049398-862F67E2-86E8-4737-BD63-5FB440A840F3Q31080116-B0E729E9-AAC4-4E21-A987-5D668460B77EQ31086314-D3823908-F9FC-4C83-B2B5-0F15C401B088Q31106109-DD1F1794-25B1-4ADF-BAFD-C0488F5F5B35Q31107900-146C4031-E5E6-49FE-8220-9E71F57AA44EQ31115799-C8578641-CE2B-4423-A023-0835CD5C13E1Q32064610-506C8F4B-0D81-4F0E-9EA8-ACF263454036Q33363375-3A5C0A36-67C6-4954-B136-B614A6232F87Q33429746-BA594724-3BD5-4776-99F1-CBAD522B09F8Q33486406-1311AD9F-00A5-46F9-9778-5EAE49166F88Q33514209-8DDC6634-B654-4FB2-9B3C-AB0F9400356EQ33526403-B33A4C16-6A65-4531-909C-FECED37F454BQ33555746-455F9E2F-01B4-4C85-88AA-485596DB7468Q33707534-4715FFCA-9672-4482-BC60-C81046162AB0Q33720646-82DD5798-3C2A-4A23-9CDC-D500EF702781Q34038730-C4C949BB-9557-4DF4-B4A5-068FC08E6BD9Q34089113-1D45DF7D-74FA-44A1-B18F-51901F6CD26CQ34097379-218DB4B9-F69B-44B0-BB86-85AAEF834AE1Q34106364-7202F433-1185-457B-9507-815673BFB733Q34121320-E1C9287D-21E9-4D5C-901E-F13856A2025CQ34180924-CC712CA8-1BA1-40BE-8B02-86332AA43EA8Q34232689-BE4B4C03-B250-48E1-B219-14085DE4B4F4Q34251058-32552009-5FC6-4195-BAFA-6772257157EAQ34251711-73B532B7-4229-4A6F-9F1F-FAF06B115709
P2860
Water proton MR properties of human blood at 1.5 Tesla: magnetic susceptibility, T(1), T(2), T*(2), and non-Lorentzian signal behavior.
description
2001 nî lūn-bûn
@nan
2001 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Water proton MR properties of ...... on-Lorentzian signal behavior.
@ast
Water proton MR properties of ...... on-Lorentzian signal behavior.
@en
type
label
Water proton MR properties of ...... on-Lorentzian signal behavior.
@ast
Water proton MR properties of ...... on-Lorentzian signal behavior.
@en
prefLabel
Water proton MR properties of ...... on-Lorentzian signal behavior.
@ast
Water proton MR properties of ...... on-Lorentzian signal behavior.
@en
P2093
P2860
P356
P1476
Water proton MR properties of ...... on-Lorentzian signal behavior.
@en
P2093
D A Yablonskiy
J J Ackerman
M C Oswood
P2860
P304
P356
10.1002/MRM.1072
P577
2001-04-01T00:00:00Z