In vivo noninvasive 4D pressure difference mapping in the human aorta: phantom comparison and application in healthy volunteers and patients.
about
The role of cardiovascular magnetic resonance in the assessment of severe aortic stenosis and in post-procedural evaluation following transcatheter aortic valve implantation and surgical aortic valve replacement.Hemodynamic Measurement Using Four-Dimensional Phase-Contrast MRI: Quantification of Hemodynamic Parameters and Clinical ApplicationsFour-dimensional flow magnetic resonance imaging in cirrhosis.4D flow cardiovascular magnetic resonance consensus statement.Beyond Bernoulli: Improving the Accuracy and Precision of Noninvasive Estimation of Peak Pressure Drops.Aortic relative pressure components derived from four-dimensional flow cardiovascular magnetic resonance.Intracardiac flow visualization: current status and future directionsNoninvasive pressure difference mapping derived from 4D flow MRI in patients with unrepaired and repaired aortic coarctation.A finite-element approach to the direct computation of relative cardiovascular pressure from time-resolved MR velocity dataTurbulent Kinetic Energy Measurement Using Phase Contrast MRI for Estimating the Post-Stenotic Pressure Drop: In Vitro Validation and Clinical Application.Year in review: bicuspid aortopathy4D flow imaging with MRI.4D flow MRI.4D flow imaging: current status to future clinical applications.Advanced flow MRI: emerging techniques and applications.Spatial resolution and velocity field improvement of 4D-flow MRI.Evolution of Precision Medicine and Surgical Strategies for Bicuspid Aortic Valve-Associated Aortopathy.Accelerated phase contrast flow imaging with direct complex difference reconstruction.Realistic aortic phantom to study hemodynamics using MRI and cardiac catheterization in normal and aortic coarctation conditions.4D Flow MRI-based pressure loss estimation in stenotic flows: Evaluation using numerical simulations.Noninvasive measurement of pressure gradient across a coronary stenosis using phase contrast (PC)-MRI: A feasibility studyNon-invasive pressure difference estimation from PC-MRI using the work-energy equation.Simplified Bernoulli's method significantly underestimates pulmonary transvalvular pressure drop.Phase-contrast MRI with hybrid one and two-sided flow-encoding and velocity spectrum separation.Noninvasive pressure measurement with 4D phase contrast MRI in patients with aortic coarctations.Bicuspid aortic valve related aortopathy.Reduction of aberrant aortic haemodynamics following aortic root replacement with a mechanical valved conduit.Noninvasive 4D pressure difference mapping derived from 4D flow MRI in patients with repaired aortic coarctation: comparison with young healthy volunteers.Volumetric velocity measurements in restricted geometries using spiral sampling: a phantom study.MRI-based computational fluid dynamics for diagnosis and treatment prediction: clinical validation study in patients with coarctation of aorta.In vivo and in vitro validation of aortic flow quantification by time-resolved three-dimensional velocity-encoded MRI
P2860
Q26739737-FA1083EA-73E4-4453-B1BB-63C3B9898E83Q26743622-F7070FA2-47D5-4233-92D4-1349444009EFQ26769606-D82F98AF-B68D-407D-9C55-597E031D49B4Q26800281-3610E816-6C20-43EB-87EE-D40418EC7C84Q30363803-DE342DA5-7D0F-4774-A773-672344529476Q30410989-3361BA90-4413-4218-A358-B774523DC429Q30427024-7F7C83C0-1C07-4A37-829C-854AE9C513E2Q30438453-5804F392-1C58-4CF4-85BC-65D9A9224A13Q34280856-C82B4957-8AE4-4195-889C-6D0E69DEB7DAQ35957801-B8A453B4-1A9F-4D36-8D1B-7A7DAF3F28ABQ37304545-9E66F455-B2AF-44DB-A342-23BD539B26B3Q37717699-0A69355E-C6E0-4D43-90FD-6B44180ABE22Q38054634-63378ACA-B864-4A7B-8CF8-5E8018E7BC06Q38202071-D47D6BBA-4E1D-4158-819A-2D792FBA0533Q38761378-7A196868-77D0-447B-A951-123580F68359Q39154979-A47171E4-1EA7-4B83-98B7-599EB9292253Q39455717-151142B6-D8E1-4FF7-B1B6-83DC96379CB9Q39888396-98B7B614-26C9-4483-8713-94667A2C97DBQ39926562-C4DEE40A-787E-4345-A906-094E0687A59DQ40897723-A547A21E-6304-4E79-AC5C-5B34A3DD8716Q41401841-4FD3643C-1E3D-494A-BE7C-452A9D2ECF22Q41817115-0567CC09-1509-4795-A7BE-6DF22EE7B817Q44746462-F3A39583-0164-4128-AEB1-0768F6D413E4Q46862267-4E4BCA20-D825-4CA4-94CE-050873B6046BQ47117799-98C2720C-670D-4F76-811F-C0E6BCB36D9AQ50255378-87602599-75B3-49A0-A6E0-7C3C1EF2068FQ50635575-EAB371DD-0BB7-4569-B3B7-FA5ABEC6B4C8Q50964621-5011E90F-2552-45DA-A08D-E7DFFE6E7833Q51084772-9E8ACB84-2BE8-42EB-BD23-27C6AFDD80E7Q52877709-23294E43-DB44-4489-AF40-A915E10D039EQ55075895-A485AAF1-C331-4A68-AB7E-8998157D7B1D
P2860
In vivo noninvasive 4D pressure difference mapping in the human aorta: phantom comparison and application in healthy volunteers and patients.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
In vivo noninvasive 4D pressur ...... althy volunteers and patients.
@en
In vivo noninvasive 4D pressur ...... althy volunteers and patients.
@nl
type
label
In vivo noninvasive 4D pressur ...... althy volunteers and patients.
@en
In vivo noninvasive 4D pressur ...... althy volunteers and patients.
@nl
prefLabel
In vivo noninvasive 4D pressur ...... althy volunteers and patients.
@en
In vivo noninvasive 4D pressur ...... althy volunteers and patients.
@nl
P2093
P2860
P356
P1476
In vivo noninvasive 4D pressur ...... ealthy volunteers and patients
@en
P2093
Daniel Hirtler
Hans Burkhardt
Jelena Bock
Juergen Hennig
Kevin M Johnson
Michael Markl
Ramona Lorenz
Raoul Arnold
P2860
P304
P356
10.1002/MRM.22907
P577
2011-03-24T00:00:00Z