about
Advanced respiratory motion compensation for coronary MR angiographyCoronary MR angiography using image-based respiratory motion compensation with inline correction and fixed gating efficiency.Highly efficient nonrigid motion-corrected 3D whole-heart coronary vessel wall imaging.Coronary artery size and origin imaging in children: a comparative study of MRI and trans-thoracic echocardiography.Characterization of coronary atherosclerosis by magnetic resonance imaging.Novel MRI Technique Enables Non-Invasive Measurement of Atrial Wall Thickness.Combined coronary lumen and vessel wall magnetic resonance imaging with i-T2prep: influence of nitroglycerin.3D myocardial T1 mapping using saturation recovery.Diagnostic performance of image navigated coronary CMR angiography in patients with coronary artery diseaseA clinical combined gadobutrol bolus and slow infusion protocol enabling angiography, inversion recovery whole heart, and late gadolinium enhancement imaging in a single study.3D high-resolution atrial wall thickness maps using black-blood PSIR.Volumetric black-blood imaging of aortic dissection using T2 prepared inversion recovery.Whole-heart contrast enhanced coronary magnetic resonance angiography using respiratory image based navigation in patients with congenital heart disease.Improved segmented modified Look-Locker inversion recovery T1 mapping sequence in mice.Improved data acquisition efficiency for respiratory motion correction in coronary MRI.'Image-navigated 3-dimensional late gadolinium enhancement cardiovascular magnetic resonance imaging: feasibility and initial clinical results'.Improved coronary magnetic resonance angiography using gadobenate dimeglumine in pediatric congenital heart disease.Interventional Correction of Sinus Venosus Atrial Septal Defect and Partial Anomalous Pulmonary Venous Drainage: Procedural Planning Using 3D Printed Models.Whole-heart coronary MR angiography using image-based navigation for the detection of coronary anomalies in adult patients with congenital heart disease.100% Efficient three-dimensional coronary MR angiography with two-dimensional beat-to-beat translational and bin-to-bin affine motion correction.A new framework for interleaved scanning in cardiovascular MR: Application to image-based respiratory motion correction in coronary MR angiography.Highly efficient respiratory motion compensated free-breathing coronary MRA using golden-step Cartesian acquisition.Diagnostic accuracy of Dixon water fat suppression coronary artery magnetic resonance angiography at 3.0 Tesla.Clinical Evaluation of 3D High Resolution Late Enhancement using Image-Based Navigation.Whole-heart coronary MR angiography with 2D self-navigated image reconstruction.Clinical evaluation of three-dimensional late enhancement MRI.Whole-heart coronary MRA with 3D affine motion correction using 3D image-based navigation.Motion Corrected 3D Whole-Heart Vessel Wall Imaging.CMRA with 100% navigator efficiency with 3D self navigation and interleaved scanning.Correction to: 3D SASHA myocardial T1 mapping with high accuracy and improved precisionDual-phase whole-heart imaging using image navigation in congenital heart disease3D saturation recovery imaging for free breathing myocardial T1 mappingFat suppression for coronary MR angiography at 3T: 2 point Dixon versus Spectral Presaturation with Inversion Recovery (SPIR)Interleaved T2 preparation for simultaneous coronary artery and pulmonary artery and vein visualizationComparison of respiratory navigator techniques for interleaved high-resolution coronary vessel wall imagingA segmented modified look-locker inversion recovery (MOLLI) sequence for high heart rate T1 mapping of miceCoronary MR Angiography in patients with coronary artery disease using image-based respiratory motion compensationFeasibility of 3D black-blood variable refocusing angle fast spin echo cardiovascular magnetic resonance for visualization of the whole heart and great vessels in congenital heart diseaseSimultaneous Assessment of Cardiac Inflammation and Extracellular Matrix Remodeling after Myocardial InfarctionVisualization of coronary arteries in paediatric patients using whole-heart coronary magnetic resonance angiography: comparison of image-navigation and the standard approach for respiratory motion compensation
P50
Q27026674-31DA4D33-4AF5-48DE-971C-C109E524D57DQ30491182-E7B3CCC8-20B8-4722-866C-AED8ACA24111Q33626159-8C181A84-8FA0-4A6E-BE7C-5AD1E965ADC1Q35821679-2E30F569-47A6-455A-A605-3911D475F4B3Q38135796-94308DBF-7386-4357-A384-C3D115852A52Q38830612-97D2FB1B-8AAD-49C0-8FE7-C2712DCB649AQ39132683-34A6CA6E-AE07-417A-9F73-B55FF07DF571Q41066295-C8DB089D-FB6A-47A2-ACA5-12D969A8036BQ41273521-B02B5CCF-A170-4FB5-82E4-5F98885BB16CQ41346163-9E1BA011-9B5A-4B63-AAC3-B2D1E3FFC561Q46003529-27E9A249-75DB-4B73-AF3A-850083DF3DD5Q46494953-85CF7B80-1BD0-4778-B052-C212BB622C23Q46786223-463CA27B-8CC8-4DC3-BFEC-332017EBBF14Q47111260-CC9E23A7-6D33-4C40-8EEB-6BB09D0E9DFEQ47120538-226CD4C6-146B-41BC-86D2-7ED4CA96C6F5Q47165722-87E29F22-5EE0-4CDA-BB10-8B1EEA4E9B92Q47655523-C9D26E43-D13D-4460-BBDE-5F8DDD5F52E6Q47667865-A3A8B8DD-8FA2-4877-A096-F8A5EFAF1CD6Q48727683-010309D7-8898-41BF-BF59-5B5846C02ABAQ48827134-B619A22C-7E31-4B57-9A3A-B3161135DC09Q48880016-9455AFD8-4650-487C-A733-B9016D43B60EQ48884021-8E24B0E1-DFB5-4D02-9D05-9AB228052104Q49265923-76023992-C9D4-44CE-9F21-A671DC416769Q49398282-6F51515C-2788-42AF-8369-CB1D37A8BE4EQ50678228-347FCCBE-4E7D-4692-9172-6C368206E698Q51113809-B4DA3FB8-E8BE-4C9E-AE7C-4E177E130725Q51260033-8F8210BC-347B-4E6F-8CD8-8ADEF9450B64Q54467509-9BAF6E09-4088-4979-9786-77555141D4D0Q55532870-B28ADCA9-A836-4845-A05B-5A94F7B27889Q57295184-45D553B0-204A-46EA-B806-44A57B48DFB7Q57455984-B3DFCB98-415F-4DA5-877D-C9D3E63F2AACQ59302583-ECBAD657-9872-4942-9C41-721E97A8B9DEQ59302587-2DC65A1D-8E1C-4EE9-80D6-59469319DC89Q59304239-A1299592-ED9D-408C-9E9E-1FC15629032CQ59304269-03B338E4-793F-450F-BEB4-26D468FC08D7Q59402347-AC057355-E10E-40BD-9196-2F7FE399B485Q59410509-503A4149-D62D-4817-8580-34A3A38EE5D7Q59808952-3650EA30-9462-4A56-961D-4A38286D66ADQ60690194-91C7A4A0-854A-4F2D-BE2E-E6EF4FB0FD2BQ64105449-73B42CA7-07F8-4C44-8590-8995D88DFF44
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0001-6142-3005
@en
name
Markus Henningsson
@ast
Markus Henningsson
@en
Markus Henningsson
@es
Markus Henningsson
@nl
type
label
Markus Henningsson
@ast
Markus Henningsson
@en
Markus Henningsson
@es
Markus Henningsson
@nl
prefLabel
Markus Henningsson
@ast
Markus Henningsson
@en
Markus Henningsson
@es
Markus Henningsson
@nl
P106
P31
P496
0000-0001-6142-3005