Time-resolved echo-shared parallel MRA of the lung: observer preference study of image quality in comparison with non-echo-shared sequences

Fink, Christian; Puderbach, Michael; Ley, Sebastian; Zaporozhan, J.; Plathow, Christian; Kauczor, H.-U.

doi:10.1007/s00330-005-2831-9

Cited by 29 publications

(25 citation statements)

References 15 publications

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“…The use of smaller targeted acquisition volumes to cover an area of interest to answer a clinical question focusing on a single arterial segment, might help to overcome limitations in spatial or temporal resolution. Further image acceleration may be achieved by the application of parallel imaging or view sharing techniques (8).…”

Section: Discussionmentioning

confidence: 99%

“…More recent developments in MRA include the application of view sharing techniques such as timeresolved imaging of contrast kinetics (TRICKS) and time-resolved echo-shared angiography technique (TREAT) (7,8) as well as image acceleration techniques such as generalized autocalibrating partially parallel acquisitions (GRAPPA) (9) or sensitivity encoding (SENSE) (10), which enable for fast CE-MRA acquisitions and time-resolved MRA (tr-CE-MRA) (7). Although CE-MRA and CTA are less invasive, both methods exclusively depict vessel morphology and geometry but do not provide information about the effect of vascular pathologies on local blood flow characteristics.…”

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confidence: 99%

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Visualization of iliac and proximal femoral artery hemodynamics using time‐resolved 3D phase contrast MRI at 3T

Frydrychowicz

Winterer

Zaitsev

et al. 2007

Magnetic Resonance Imaging

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Purpose:To demonstrate the feasibility of time-resolved 3D MR velocity mapping at 3 Tesla for the visualization of vascular hemodynamics in normal iliac and femoral arteries. Materials and Methods:Electrocardiographically (ECG) synchronized three-dimensional (3D) CINE phase-contrast MRI with three-directional flow encoding was adapted to analyze flow in peripheral arteries at 3T. Visualization of peripheral arterial hemodynamics within the acquired data volume included 3D streamlines and time-resolved 3D particle traces within the major vessels and localized analysis of flow profiles using 2D-vector graphs. Data was visually compared to results from color-coded duplex ultrasound (US).Results: Global and detailed local blood flow characteristics were successfully analyzed in all subjects. In agreement with US findings, normal laminar flow patterns without flow acceleration or disturbances were visualized in all healthy individuals. In an exemplary patient measurement multiple segmental flow accelerations could be demonstrated. MRI additionally revealed complex helical flow alterations distal to a moderate stenosis. Conclusion:Due to the full spatial and temporal coverage of the arteries of interest, 3D CINE phase contrast MRI at 3T is a promising tool for the evaluation of vascular hemodynamics in peripheral arteries. Future methodological improvements will be directed to improve spatial and temporal resolution as well as quantitative data analysis. Moreover, the technique will have to be evaluated in patients in comparison to standard diagnostic tools.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Visualization of iliac and proximal femoral artery hemodynamics using time‐resolved 3D phase contrast MRI at 3T

Frydrychowicz

Winterer

Zaitsev

et al. 2007

Magnetic Resonance Imaging

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“…Its unsurpassed soft-tissue contrast for example has been used for ventilation-perfusion imaging [1][2][3][4][5][6][7][8][9]. MRI of the lung may also be used to detect and measure broadening of tumors invading the chest wall or mediastinal structures [10].…”

Section: Introductionmentioning

confidence: 99%

Detection of small pulmonary nodules in high-field MR at 3 T: evaluation of different pulse sequences using porcine lung explants

Regier¹,

Kandel

Kaul³

et al. 2006

Eur Radiol

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To evaluate two MR imaging sequences for the detection of artificial pulmonary nodules inside porcine lung explants. 67 agarose nodules ranging 3-20 mm were injected into ten porcine lungs within a dedicated chest phantom. The signal on T1-weighted images and radiopacity were adjusted by adding 0.125 mmol/l Gd-DTPA and 1.5 g/l of iodine. A T1-weighted three-dimensional gradient-echo (T1-3D-GRE; TR/TE:3.3/1.1 ms, slice:8 mm, flip-angle:10 degrees ) and a T2-weighted half-Fourier fast-spin echo sequence (T2-HF-FSE; TR/TE:2000/66 ms, slice:7 mm, flip-angle:90 degrees ) were applied in axial orientation using a 3-T system (Intera, Philips Medical Systems, Best, The Netherlands), followed by CT (16x0.5 mm) as reference. Nodule sizes and locations were assessed by three blinded observers. In nodules of >10 mm, sensitivity was 100% using 3D-GRE-MRI and 94% using the HF-FSE sequence. For nodules 6-10 mm, the sensitivity of MRI was lower than with CT (3D-GRE:92%; T2-HF-FSE:83%). In lesions smaller than 5 mm, the sensitivity declined to 80% (3D-GRE) and 53% (HF-FSE). Small lesion diameters were overestimated with both sequences, particularly with HF-FSE. This study confirms the feasibility of 3 T-MRI for lung nodule detection. In lesions greater than 5 mm, the sensitivity of the 3D-GRE sequence approximated CT (>90%), while sensitivity and PPV with the HF-FSE sequence were slightly inferior.

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“…(147)(148)(149) In addition to the above described imaging techniques, MRI offers the possibility to assess perfusion of the lung vascular bed by ultra-fast imaging during the injection of Gadolinium contrast. (150,151) This enables direct visualization of regional perfusion, with the possibility of some form of quantification (though this is notoriously difficult in MRI due to signal-noise properties). Several studies have now demonstrated the feasibility of this technique for assessment of normal and pathological processes.…”

Section: Gadolinium-enhanced Imagingmentioning

confidence: 99%

Functional Imaging: CT and MRI

Beek

Hoffman

2008

Clinics in Chest Medicine

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Synopsis-Numerous imaging techniques permit evaluation of regional pulmonary function. Contrast-enhanced CT methods now allow assessment of vasculature and lung perfusion. Techniques using spirometric controlled MDCT allow for quantification of presence and distribution of parenchymal and airway pathology, Xenon gas can be employed to assess regional ventilation of the lungs and rapid bolus injections of iodinated contrast agent can provide quantitative measure of regional parenchymal perfusion. Advances in magnetic resonance imaging (MRI) of the lung include gadolinium-enhanced perfusion imaging and hyperpolarized helium imaging, which can allow imaging of pulmonary ventilation and .measurement of the size of emphysematous spaces.

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Time-resolved echo-shared parallel MRA of the lung: observer preference study of image quality in comparison with non-echo-shared sequences

Cited by 29 publications

References 15 publications

Visualization of iliac and proximal femoral artery hemodynamics using time‐resolved 3D phase contrast MRI at 3T

Visualization of iliac and proximal femoral artery hemodynamics using time‐resolved 3D phase contrast MRI at 3T

Detection of small pulmonary nodules in high-field MR at 3 T: evaluation of different pulse sequences using porcine lung explants

Functional Imaging: CT and MRI

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