Phase-Contrast MRI: Physics, Techniques, and Clinical Applications

Wymer, David T.; Patel, Khushbu; Burke, William F.; Bhatia, Vinay Kumar

doi:10.1148/rg.2020190039

Cited by 124 publications

(106 citation statements)

References 34 publications

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“…The parameters extracted from dynamic oximetry, velocimetry, and aortic arch PWV all rely on signal phase and the primary source of phase error is static field inhomogeneity. The MRI principle of velocimetry and PWV are identical and the method is fundamentally robust against static field inhomogeneity because the phase difference is taken between two images acquired with the same echo time 39 . Dynamic oximetry is more susceptible to field inhomogeneity; however, the superficial femoral vein is a deep‐lying vessel at mid‐thigh and the primary effect of inhomogeneity caused by air–tissue interfaces is considerably mitigated and further reduced with retrospective correction 31 .…”

Section: Discussionmentioning

confidence: 99%

Evaluation of Vascular Reactivity of Maternal Vascular Adaptations of Pregnancy With Quantitative MRI: Pilot Study

Langham

Caporale

Wehrli

et al. 2020

Magnetic Resonance Imaging

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BackgroundAbnormal maternal vascular function during pregnancy stemming from systemic endothelial dysfunction (EDF) has a central role in the pathophysiology of preeclampsia (PE).PurposeTo utilize quantitative MRI to investigate changes in physiological measures of vascular reactivity during normal pregnancy, and to explore EDF associated with preeclampsia.Study TypeProspective.PopulationHealthy pregnant (HP) (n = 14, mean GA = 26 ± 7 weeks) and nonpregnant women (NP; n = 14); newly postpartum (PP <48 hours) women with severe PE (PP‐PE; n = 4) and normotensive pregnancy (PP‐HP; n = 5).Field Strength/Sequence1.5T/3T. RF spoiled multiecho gradient‐recalled echo, 1D phase‐contrast MRI, time‐of‐flight.AssessmentThe micro‐ and macrovascular function (vasodilatory capacity of arterioles and conduit arteries, respectively) of the femoral vascular bed was evaluated with MRI‐based venous oximetry, arterial velocimetry, and luminal flow‐mediated dilation quantification, during cuff‐induced reactive hyperemia. Aortic arch pulse‐wave velocity (aPWV) was quantified to assess arterial stiffness using an ungated 1D technique.Statistical TestsTwo‐tailed unpaired t‐tests were performed to address our two, primary a priori comparisons, HP vs. NP, and PP‐PE vs. PP‐HP. Given the pilot nature of this study, adjustments for multiple comparisons were not performed.ResultsIn HP, microvascular function was attenuated compared to NP by a significant increase in the washout time (10 ± 2 vs. 8 ± 2 sec; P < 0.05) and reduced upslope (2.1 ± 0.5 vs. 3.2 ± 0.8%HbO2/s; P < 0.05), time of forward flow (28 ± 5 vs. 33 ± 6 sec, P < 0.05), and hyperemic index (11 ± 3 vs. 16 ± 4 cm/s2; P < 0.05), but luminal flow‐mediated dilatation (FMDL)was comparable between HP and NP. PP‐PE exhibited significant vascular dysfunction compared to PP‐HP, as evidenced by differences in upslope (2.2 ± 0.6 vs. 1.3 ± 0.2%HbO2/s, P < 0.05), overshoot (16 ± 5 vs. 7 ± 3%HbO2, P < 0.05), time of forward flow (28 ± 6 vs. 15 ± 7 s, P < 0.05), and aPWV (7 ± 1 vs. 8 ± 1 m/s, P < 0.05).Data ConclusionAttenuated vascular reactivity during pregnancy suggests that the systemic vasodilatory state partially depletes nitric oxide bioavailability. Preliminary data support the potential for MRI to identify vascular dysfunction in vivo that underlies PE.Level of Evidence 2Technical Efficacy Stage 1J. MAGN. RESON. IMAGING 2021;53:447–455.

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Section: Discussionmentioning

confidence: 99%

Evaluation of Vascular Reactivity of Maternal Vascular Adaptations of Pregnancy With Quantitative MRI: Pilot Study

Langham

Caporale

Wehrli

et al. 2020

Magnetic Resonance Imaging

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“…So far, the MRI technique that can show CSF movement is the phase-contrast MR imaging [116]. The degree of aqueduct signal loss is thought to reflect the rate of pulsating CSF motion, which in turn depends on relative ventricular compliance and surface area [117].…”

Section: Imaging Examinationmentioning

confidence: 99%

Hydrocephalus after aneurysmal subarachnoid hemorrhage: Epidemiology, Pathogenesis, Diagnosis, and Management

2021

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Hydrocephalus is one of the most common complications of aneurysmal subarachnoid hemorrhage (aSAH), which seriously affects the quality of life and shortens the survival time of affected patients. By reviewing the recent studies on the risk factors of aSAH-associated hydrocephalus, we aimed to explicitly present the pathogenesis of acute and chronic hydrocephalus after aSAH and make a comprehensive list of the associated risk factors of aSAH-associated hydrocephalus and shunt-dependent hydrocephalus. It would help us to better explain the occurrence of hydrocephalus after aSAH, especially hydrocephalus caused by inflammation after bleeding. Many studies have recently suggested that high mobility group box 1 may be an early upstream promoter of inflammatory response after aSAH, which also provides important ideas for us to look for potential drug treatments. The surgery, such as external ventricular drain and lumbar drainage, is the most common and effective treatment. Yet, there are often complications, such as rebleeding and intracranial infection, and the optimal timing of intervention is controversial. Besides, this is also a systematic review of the recent advances in epidemiology, pathogenesis, diagnosis, and management of aSAH-associated hydrocephalus.

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“…Multiple applications of phase-contrast imaging are actively used in clinical practice. In neurological imaging, phase-contrast imaging can be used to measure the flow of cerebrospinal fluid or to visualise arterial and venous flow [74].…”

Section: Alternative Non-contrast-enhanced Techniques Of Mrimentioning

confidence: 99%

Role of gadolinium-based contrast agents in neurological disorders

Golec

Jakimów-Kostrzewa

Mruk

et al. 2020

Neurol Neurochir Pol.

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Gadolinium-based contrast agents (GBCAs) are widely used in magnetic resonance imaging (MRI) to help with the diagnostic and monitoring processes of many diseases, including neurological disorders. Initially, it was assumed that GBCAs carry minimal risk, are safe and well tolerated. But recent reports of GBCA-associated deposition in many body tissues have raised concerns about the broader health impacts of gadolinium exposure. The aim of this review was to summarise knowledge regarding gadolinium deposition, primarily in the brain structures, and of potential GBCA-associated toxicity. Moreover, we discuss the current recommendations on the use of GBCAs, as well as alternative contrast agents and imaging techniques.

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Phase-Contrast MRI: Physics, Techniques, and Clinical Applications

Cited by 124 publications

References 34 publications

Evaluation of Vascular Reactivity of Maternal Vascular Adaptations of Pregnancy With Quantitative MRI: Pilot Study

Evaluation of Vascular Reactivity of Maternal Vascular Adaptations of Pregnancy With Quantitative MRI: Pilot Study

Hydrocephalus after aneurysmal subarachnoid hemorrhage: Epidemiology, Pathogenesis, Diagnosis, and Management

Role of gadolinium-based contrast agents in neurological disorders

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