about
MRI of fast-relaxing spinsGradient-modulated SWIFT.High-spatial- and high-temporal-resolution dynamic contrast-enhanced MR breast imaging with sweep imaging with Fourier transformation: a pilot study.Evaluation of chondral repair using quantitative MRI.T₁ estimation for aqueous iron oxide nanoparticle suspensions using a variable flip angle SWIFT sequence.Rapid ex vivo imaging of PAIII prostate to bone tumor with SWIFT-MRICortical bone water changes in ovariectomized rats during the early postoperative period: Objective evaluation using sweep imaging with Fourier transform.Phase imaging in brain using SWIFT.Assessment of dysmyelination with RAFFn MRI: application to murine MPS I.Sodium MRI of glioma in animal models at ultrahigh magnetic fields.Imaging human teeth by phosphorus magnetic resonance with nuclear Overhauser enhancement.Positive contrast from cells labeled with iron oxide nanoparticles: Quantitation of imaging data.Quantitative (31)P NMR spectroscopy and (1)H MRI measurements of bone mineral and matrix density differentiate metabolic bone diseases in rat models.Sweep MRI with algebraic reconstruction.Breast MRI using SWeep Imaging with Fourier Transform (SWIFT)SWIFT detection of SPIO-labeled stem cells grafted in the myocardiumMeasurement of T1 relaxation time of osteochondral specimens using VFA-SWIFT.Multi-Band-SWIFT.Short echo-time 3D radial gradient-echo MRI using concurrent dephasing and excitation.Detecting Fleeting MRI Signals with Frequency-Modulated PulsesDetection of calcifications in vivo and ex vivo after brain injury in rat using SWIFT.Continuous SWIFTIntraoral approach for imaging teeth using the transverse B1 field components of an occlusally oriented loop coil.Investigation of the Longitudinal Relaxation Time of Rat Tibial Cortical Bone using SWIFT.Imaging mouse lung allograft rejection with (1)H MRI.Implementation equations for HS n RF pulses.Transformation in mandibular imaging with sweep imaging with fourier transform magnetic resonance imaging.Review. The Agfa Mayneord lecture: MRI of short and ultrashort T₂ and T₂* components of tissues, fluids and materials using clinical systems.Gap cycling for SWIFT.Dental magnetic resonance imaging: making the invisible visible.In vivo MR imaging with simultaneous RF transmission and reception.A diffusion-based method for long-T2 suppression in steady state sequences: Validation and application for 3D-UTE imaging.Designing 3D selective adiabatic radiofrequency pulses with single and parallel transmission.MB-SWIFT functional MRI during deep brain stimulation in rats.Magnetization transfer SWIFT MRI consistently detects histologically verified myelin loss in the thalamocortical pathway after a traumatic brain injury in rat.Murine pulmonary imaging at 7T: T2* and T1 with anisotropic UTE.Establishing the overlap of IONP quantification with echo and echoless MR relaxation mapping.Full analytical solution of the bloch equation when using a hyperbolic-secant driving function.In vivo quantification of SPIO nanoparticles for cell labeling based on MR phase gradient images.MRI with zero echo time: hard versus sweep pulse excitation.
P2860
Q27013103-26882B55-FC13-4069-8BF9-9DF193A1A6B3Q30354569-E423C7AD-6E83-4E14-BE46-DB042105FD05Q30392540-B0943EEC-49D5-498F-84C0-8C52CAD2F51AQ30577962-91CEF4EA-36DD-4BC7-9036-DD8F619A188CQ30652478-3F66FB98-8CA7-486D-9F70-A218BF7C9FB6Q30683446-A5B9733F-FA96-4471-B56E-8E9E11721932Q30854920-9FDD11B8-E6BB-4410-9A2E-D44EE0F71624Q30886193-21433C55-3D21-4702-83F3-89CC361DA8B4Q30892378-82784D16-B582-4A3D-8960-2659508D26A1Q30980381-505B34F3-B67E-4849-9C16-FA7471E2A84BQ31120034-20850F96-1008-48DA-835C-12E28BEDC471Q31155191-E4AEDFDA-D961-4703-9D05-7A50CBD13A77Q33534954-F7F4AE1D-0405-4F15-8C50-65BFFFE0718CQ33719656-6BD85111-D80D-49F4-8F5B-577A7AB80F9EQ33854973-D362A93B-D671-43AD-8392-0358FCFCFB6BQ34038493-7B775D40-663C-46C7-A2FA-8BBF96DC6067Q35072533-F51EC50C-2EC7-47AB-90EF-6B39B8617B87Q35085205-F74244DD-3F13-4910-9019-ABB201F86DFCQ35250269-911988B6-7D00-464B-AF54-2A335A19C383Q35997670-A491AC14-E3DB-449D-97F4-71A19B95773AQ36035497-894A8B0E-3EE6-44AC-BC99-71CBC05A3D62Q36074429-85C4E528-CB71-4513-9A06-32FC694F9D4DQ37415270-62F768FC-085D-477D-B32C-FB4998FB2C52Q38784353-9B75EEBF-8ECB-4095-BBEC-CDC822C08823Q41898903-17D65A70-061B-4954-BB7D-89F9858CA97FQ42131200-98D27C60-153A-49B7-8570-CAD8A772A43BQ42208656-DE763DA4-B1D4-42C4-A271-DD3A16B34DFEQ42419277-584493A8-426A-462D-9730-3C76F431283DQ42838735-0FDC6DB9-EAE1-4767-B2F1-AD34BB596C79Q42846639-A37D325C-94FC-4D88-9596-A4481A9C81A1Q45772681-86AEE73A-9E91-42BC-9B95-0F3B87E25015Q47572895-6052C04E-2D12-4A31-BB6A-4154D9E228E5Q48154168-81A8058A-7D3C-49EE-B8BD-9D0433B46274Q48158812-0329FB2F-C078-4E45-A70F-D9B8C2A30CC2Q48393611-C33DCDE9-306B-449A-AD16-41E03BA885B8Q48604297-F76C01CF-7C36-44B4-893F-23DB2AE9E6ECQ48627780-C3FCF1D2-FDAD-417F-9AE3-12F1FAD31ABAQ48807713-52D1FB05-25B8-4BE9-8DBF-CCC8921273B7Q50618758-2E0B6A4E-503C-4DF8-A995-BA5F5167A490Q51595551-9E1884B6-E440-4866-8372-497B7BB0DF41
P2860
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
Gapped pulses for frequency-swept MRI.
@en
type
label
Gapped pulses for frequency-swept MRI.
@en
prefLabel
Gapped pulses for frequency-swept MRI.
@en
P2093
P2860
P1476
Gapped pulses for frequency-swept MRI
@en
P2093
Djaudat Idiyatullin
Michael Garwood
Steen Moeller
P2860
P304
P356
10.1016/J.JMR.2008.05.009
P577
2008-05-20T00:00:00Z