Retrospective correction of physiological field fluctuations in high-field brain MRI using concurrent field monitoring.
about
Overview of quantitative susceptibility mapping.VERSE-guided parallel RF excitations using dynamic field correction.Enhanced quantitative susceptibility mapping (QSM) using real-time field control.A comparison of navigators, snap-shot field monitoring, and probe-based field model training for correcting B0 -induced artifacts in T2*-weighted images at 7 T.Spinal cord MRI at 7T.Automated eye blink detection and correction method for clinical MR eye imaging.Image reconstruction using a gradient impulse response model for trajectory prediction.Decoupled dynamic magnetic field measurements improves diffusion-weighted magnetic resonance images.An industrial design solution for integrating NMR magnetic field sensors into an MRI scanner.Spatiotemporal characterization of breathing-induced B0 field fluctuations in the cervical spinal cord at 7T.Feedback field control improves the precision of T2 * quantification at 7 T.Measuring motion-induced B0 -fluctuations in the brain using field probes.A field camera for MR sequence monitoring and system analysis.Monitoring, analysis, and correction of magnetic field fluctuations in echo planar imaging time series.Concurrent recording of RF pulses and gradient fields - comprehensive field monitoring for MRI.Diffusion MRI with concurrent magnetic field monitoring.Real-time motion correction using gradient tones and head-mounted NMR field probes.Utility of real-time field control in T2 *-Weighted head MRI at 7T.Magnetic Resonance Imaging technology-bridging the gap between noninvasive human imaging and optical microscopy
P2860
Q31115799-8D6AB2E9-03DB-4612-B6EB-D87045EA4446Q33834318-B693241A-4049-41C8-8DDA-D60759A7A028Q36384502-6A094257-D230-4BFA-B3D7-1864280E7FEFQ39177318-37D1F4B7-02DF-4B63-B0E9-AF8271E2848BQ39419278-9D6F7A1F-85AF-49AD-85C6-4054CC258F9BQ39540569-4F2A3FDF-79B0-4635-B8F3-2D6E8AE0C184Q40695883-7652334E-D6D2-45DF-8946-A5B62BC8AA1FQ41050322-7613BEAB-376B-4EE2-8D88-F2D74CC6210EQ47213017-DCFF2D74-E6B7-4823-BB43-E2B8DCBBFA42Q47699705-A23E5800-798D-484D-B341-5B5617141284Q47842903-9FB1BBCB-4F78-467A-85B5-C6A2E9957306Q48130010-0EE032F7-1E17-411B-9A0D-047385A3F744Q48177178-3ED82D6B-B4A0-4F86-A031-5E6EAD243C95Q48280789-DA614D57-B613-456E-83A9-D3C3C2F42998Q48756974-9B71A5BA-8F2E-4D3A-AC25-AB794D4D996EQ48771417-AB83AA4C-86F6-4DD9-889C-C0612C95E5CAQ48827792-05804545-5421-42B3-8E96-F1FEBEB57EDEQ50862820-0CF3F7F2-CB3E-4D9F-BD37-ABB9ECB58EB5Q57181936-4C12FDD1-18C3-4A16-AE0A-DCB20D3572ED
P2860
Retrospective correction of physiological field fluctuations in high-field brain MRI using concurrent field monitoring.
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh
2014年學術文章
@zh-hant
name
Retrospective correction of ph ...... g concurrent field monitoring.
@en
Retrospective correction of ph ...... g concurrent field monitoring.
@nl
type
label
Retrospective correction of ph ...... g concurrent field monitoring.
@en
Retrospective correction of ph ...... g concurrent field monitoring.
@nl
prefLabel
Retrospective correction of ph ...... g concurrent field monitoring.
@en
Retrospective correction of ph ...... g concurrent field monitoring.
@nl
P2093
P2860
P356
P1476
Retrospective correction of ph ...... ng concurrent field monitoring
@en
P2093
Benjamin E Dietrich
Bertram J Wilm
Christoph Barmet
David O Brunner
Klaas P Pruessmann
Simon Gross
Thomas Schmid
Yolanda Duerst
P2860
P304
P356
10.1002/MRM.25303
P577
2014-06-05T00:00:00Z