T1 measurement using a short acquisition period for quantitative cardiac applications.
about
Myocardial tissue characterization by magnetic resonance imaging: novel applications of T1 and T2 mappingSaturation pulse design for quantitative myocardial T1 mappingT1-mapping in the heart: accuracy and precisionT1 mapping in cardiac MRI.Accuracy, precision, and reproducibility of four T1 mapping sequences: a head-to-head comparison of MOLLI, ShMOLLI, SASHA, and SAPPHIRE.In vivo quantification of contrast agent concentration using the induced magnetic field for time-resolved arterial input function measurement with MRI.Free-breathing combined three-dimensional phase sensitive late gadolinium enhancement and T1 mapping for myocardial tissue characterization.Quantitative evaluation of ischemic myocardial scar tissue by unenhanced T1 mapping using 3.0 Tesla MR scannerFast cardiac T1 mapping in mice using a model-based compressed sensing method.Flip angle profile correction for T₁ and T₂ quantification with look-locker inversion recovery 2D steady-state free precession imaging.Cardiac MRI is complementary to echocardiography in the assessment of cardiac masses.Coronary microvascular function and myocardial fibrosis in women with angina pectoris and no obstructive coronary artery disease: the iPOWER study.Myocardial T1-mapping at 3T using saturation-recovery: reference values, precision and comparison with MOLLITemporally resolved parametric assessment of Z-magnetization recovery (TOPAZ): Dynamic myocardial T1 mapping using a cine steady-state look-locker approach.Towards accurate and precise T 1 and extracellular volume mapping in the myocardium: a guide to current pitfalls and their solutions.PET/MR: Yet another Tesla?T1 Mapping for Myocardial Fibrosis by Cardiac Magnetic Resonance Relaxometry-A Comprehensive Technical Review.Joint myocardial T1 and T2 mapping using a combination of saturation recovery and T2 -preparation.Comparison of spoiled gradient echo and steady-state free-precession imaging for native myocardial T1 mapping using the slice-interleaved T1 mapping (STONE) sequence.Clinical recommendations for cardiovascular magnetic resonance mapping of T1, T2, T2* and extracellular volume: A consensus statement by the Society for Cardiovascular Magnetic Resonance (SCMR) endorsed by the European Association for CardiovascularSaturation recovery single-shot acquisition (SASHA) for myocardial T(1) mapping.Extracellular volume quantification by cardiac magnetic resonance imaging without hematocrit sampling : Ready for prime time?Simultaneous multislice imaging for native myocardial T1 mapping: Improved spatial coverage in a single breath-hold.Multiple 3D inversion recovery imaging for volume T1 mapping of the heart.Black-blood native T1 mapping: Blood signal suppression for reduced partial voluming in the myocardium.Free-breathing multislice native myocardial T1 mapping using the slice-interleaved T1 (STONE) sequence.
P2860
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P2860
T1 measurement using a short acquisition period for quantitative cardiac applications.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
T1 measurement using a short acquisition period for quantitative cardiac applications.
@en
T1 measurement using a short acquisition period for quantitative cardiac applications.
@nl
type
label
T1 measurement using a short acquisition period for quantitative cardiac applications.
@en
T1 measurement using a short acquisition period for quantitative cardiac applications.
@nl
prefLabel
T1 measurement using a short acquisition period for quantitative cardiac applications.
@en
T1 measurement using a short acquisition period for quantitative cardiac applications.
@nl
P2093
P2860
P356
P1433
P1476
T1 measurement using a short acquisition period for quantitative cardiac applications.
@en
P2093
John P Ridgway
Michael A Smith
U Mohan Sivananthan
P2860
P304
P356
10.1118/1.1921668
P407
P577
2005-06-01T00:00:00Z