4D magnetic resonance velocity mapping of blood flow patterns in the aorta in young vs. elderly normal subjects.
about
4D flow cardiovascular magnetic resonance consensus statement.Cardiovascular magnetic resonance phase contrast imagingInlet and outlet valve flow and regurgitant volume may be directly and reliably quantified with accelerated, volumetric phase-contrast MRIIntracardiac flow visualization: current status and future directionsNoninvasive pressure difference mapping derived from 4D flow MRI in patients with unrepaired and repaired aortic coarctation.Time-resolved 3D quantitative flow MRI of the major intracranial vessels: initial experience and comparative evaluation at 1.5T and 3.0T in combination with parallel imaging.Flow and myocardial interaction: an imaging perspectiveComprehensive 4D velocity mapping of the heart and great vessels by cardiovascular magnetic resonanceCharacterization of the highly nonlinear and anisotropic vascular tissues from experimental inflation data: a validation study toward the use of clinical data for in-vivo modeling and analysis.Unravelling cardiovascular disease using four dimensional flow cardiovascular magnetic resonance.Evaluation of valvular insufficiency and shunts with parallel-imaging compressed-sensing 4D phase-contrast MR imaging with stereoscopic 3D velocity-fusion volume-rendered visualization.Measurements of wall shear stress and aortic pulse wave velocity in swine with familial hypercholesterolemia.Lagrangian postprocessing of computational hemodynamicsThree-dimensional haemodynamics in patients with obstructive and non-obstructive hypertrophic cardiomyopathy assessed by cardiac magnetic resonanceQuantitative Analysis of Vortical Blood Flow in the Thoracic Aorta Using 4D Phase Contrast MRI.Four-dimensional, flow-sensitive magnetic resonance imaging of blood flow patterns in thoracic aortic dissectionsAssessment of blood flow and valvular heart disease using phase-contrast cardiovascular magnetic resonance.Age-related changes in aortic 3D blood flow velocities and wall shear stress: Implications for the identification of altered hemodynamics in patients with aortic valve diseaseEffect of Different Rotational Directions of BJUT-II VAD on Aortic Swirling Flow Characteristics: A Primary Computational Fluid Dynamics Study.4D flow magnetic resonance imaging in bicuspid aortic valve disease demonstrates altered distribution of aortic blood flow helicityQuantification of thoracic blood flow using volumetric magnetic resonance imaging with radial velocity encoding: in vivo validationAssessment of left ventricular 2D flow pathlines during early diastole using spatial modulation of magnetization with polarity alternating velocity encoding: a study in normal volunteers and canine animals with myocardial infarction.4D flow imaging with MRI.4D flow imaging: current status to future clinical applications.Physiological significance of helical flow in the arterial system and its potential clinical applications.Distribution of blood flow velocity in the normal aorta: Effect of age and gender.The tissue Doppler imaging derived post-systolic velocity notch originates at the aortic annulusVolumetric quantification of absolute local normalized helicity in patients with bicuspid aortic valve and aortic dilatation.An innovative numerical approach to resolve the pulse wave velocity in a healthy thoracic aorta model.Interdependencies of aortic arch secondary flow patterns, geometry, and age analysed by 4-dimensional phase contrast magnetic resonance imaging at 3 Tesla.Four-dimensional phase contrast magnetic resonance angiography: potential clinical applications.Curvature and tortuosity of the superficial femoral artery: a possible risk factor for peripheral arterial disease.Comparative study of flow in right-sided and left-sided aortas: numerical simulations in patient-based models.Dampening of blood-flow pulsatility along the carotid siphon: does form follow function?Four-dimensional velocity-encoded magnetic resonance imaging improves blood flow quantification in patients with complex accelerated flow.Measurement of cardiac valve and aortic blood flow velocities in stroke patients: a comparison of 4D flow MRI and echocardiography.A numerical study on the flow of blood and the transport of LDL in the human aorta: the physiological significance of the helical flow in the aortic arch.Comparative Evaluation of Flow Quantification across the Atrioventricular Valve in Patients with Functional Univentricular Heart after Fontan's Surgery and Healthy Controls: Measurement by 4D Flow Magnetic Resonance Imaging and Streamline VisualizatVector Flow Imaging Compared with Conventional Doppler Ultrasound and Thermodilution for Estimation of Blood Flow in the Ascending Aorta.Magnetic resonance velocity mapping of 3D cerebrospinal fluid flow dynamics in hydrocephalus: preliminary results.
P2860
Q26800281-0A7FBED6-EEFC-4EE4-992B-826A489C38A7Q26800754-D56E80DC-C0FE-4A95-8973-054489576D45Q27334007-0AF32E4B-5148-4A6E-9822-BA5933A681B3Q30427024-E9370E3E-062D-4F0C-8DF5-43019D1E2848Q30438453-BD6F7521-D983-4B1C-AA60-9D3EA7F843BBQ30440192-809A0A17-2030-4B2C-A5E1-480C34145F11Q30493619-AF9934F4-D230-4A83-A386-A1BBA54B8A92Q30497981-3BF27BF1-3D86-44D0-96F9-46521AA5726FQ31165709-DC602916-4344-4E2D-B070-CC810BD38265Q33849407-792319CC-F3EB-4ACA-8A26-201C0A5B936BQ34393939-2109BE46-5735-4E02-A32A-EDE352CFBDB2Q34774025-5CAC8215-962A-4F9A-9C36-E0F570EC2DA1Q34892765-7B92118D-0EAE-45A7-9E7A-515107FFD24AQ35197381-C0F5530B-3755-4FF0-ABFD-AB755DFBCD96Q35791795-54D44894-C260-4442-B6CA-3AF21C07260DQ36445958-E1EB89D8-8A4C-402A-9F28-60690D769FC8Q36741540-1D50115E-F053-4A05-AC32-3DF6521C2F96Q36813537-03469F09-5F44-4A07-8E15-DD936C199DDEQ37138216-E3C69395-BA03-48CE-BE29-7C0356601119Q37185346-E19DFA1C-147A-4034-B189-EB41A87F75DCQ37296944-13265984-519D-460E-8332-41A384D1C4EDQ37351113-BB6597DD-C68B-4C0B-96C2-7B72D59DA68BQ37717699-6BE3193E-7C9C-4B5C-AE30-DF38674FA086Q38202071-EEB880E2-3C42-43D7-B2BB-6F94345FC48AQ38244407-4F05708C-3207-4AC8-9A7E-852D420957E3Q38757447-AB55872F-F594-4A87-BDDA-1FEDFAE5FA23Q38836685-80AFF16F-1D78-4FE9-B5FE-0B5B813E9A5FQ39476205-DA97C7A1-5B58-46E2-AA69-789FB9E0F2ECQ39608937-BC7C13C8-C686-4D7E-8419-AB41066B5309Q39671036-0418D216-6172-43D3-B999-40EB3EAC4915Q39781382-225793F9-29FA-4D76-AE66-632CDE1252A7Q40309278-66BA824F-5E85-4380-A3AD-EB75A4A9E50BQ44080350-3A29B5AE-4888-4D00-8DAF-7EFC93F8B67BQ44388817-E6606F62-115C-4FE2-B7FE-4B58EE0F92D2Q46548843-A2EC6997-6197-4DC1-9941-6A69CB6F0C1CQ47736415-6F180581-3FC4-4BCD-B92E-9DBFCD6B2D9FQ47835086-A82FAAB0-2968-4624-B1DB-BFF682CAAE32Q48605867-6375B329-21EB-4701-8551-EF66D614BC7AQ48705302-650C3B33-5DD1-4875-91E5-5AD101190803Q48935656-F6262556-C72C-4802-A109-F95A7920911F
P2860
4D magnetic resonance velocity mapping of blood flow patterns in the aorta in young vs. elderly normal subjects.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
4D magnetic resonance velocity ...... g vs. elderly normal subjects.
@en
type
label
4D magnetic resonance velocity ...... g vs. elderly normal subjects.
@en
prefLabel
4D magnetic resonance velocity ...... g vs. elderly normal subjects.
@en
P1476
4D magnetic resonance velocity ...... g vs. elderly normal subjects.
@en
P2093
Buonocore MH
P304
P356
10.1002/(SICI)1522-2586(199911)10:5<861::AID-JMRI35>3.0.CO;2-E
P577
1999-11-01T00:00:00Z