3D high temporal and spatial resolution contrast‐enhanced MR angiography of the whole brain
暂无分享,去创建一个
Stephen J Riederer | Houchun Harry Hu | Norbert G Campeau | Clifton R Haider | John Huston | S. Riederer | N. Campeau | J. Huston | C. Haider | H. Hu
[1] T J Carroll,et al. Intracranial time-resolved contrast-enhanced MR angiography at 3T. , 2006, AJNR. American journal of neuroradiology.
[2] Martin Requardt,et al. Time-Resolved Contrast-Enhanced Three-Dimensional Magnetic Resonance Angiography of the Chest: Combination of Parallel Imaging With View Sharing (TREAT) , 2005, Investigative radiology.
[3] Walter F Block,et al. Time‐resolved contrast‐enhanced imaging with isotropic resolution and broad coverage using an undersampled 3D projection trajectory , 2002, Magnetic resonance in medicine.
[4] Schneider,et al. Magnetic Resonance Angiography: Techniques, Indications and Practical Applications , 2005 .
[5] D. Feinberg,et al. Halving MR imaging time by conjugation: demonstration at 3.5 kG. , 1986, Radiology.
[6] J. J. van Vaals,et al. “Keyhole” method for accelerating imaging of contrast agent uptake , 1993, Journal of magnetic resonance imaging : JMRI.
[7] B. Hamm,et al. First-Pass Whole-Body Magnetic Resonance Angiography (MRA) Using the Blood-Pool Contrast Medium Gadofosveset Trisodium: Comparison to Gadopentetate Dimeglumine , 2007, Investigative radiology.
[8] Raja Muthupillai,et al. Parallel Imaging in MR Angiography , 2004, Topics in magnetic resonance imaging : TMRI.
[9] R F Busse,et al. A flexible view ordering technique for high‐quality real‐time 2DFT MR fluoroscopy , 1999, Magnetic resonance in medicine.
[10] R. Edelman,et al. Cineangiography of the heart in a single breath hold with a segmented turboFLASH sequence. , 1991, Radiology.
[11] James C Carr,et al. Thorax: low-dose contrast-enhanced three-dimensional MR angiography with subsecond temporal resolution--initial results. , 2002, Radiology.
[12] M. Bock,et al. Renal arteries: optimization of three-dimensional gadolinium-enhanced MR angiography with bolus-timing-independent fast multiphase acquisition in a single breath hold. , 1999, Radiology.
[13] W. Eubank,et al. Utilizing SENSE to achieve lower station sub‐millimeter isotropic resolution and minimal venous enhancement in peripheral MR angiography , 2002, Journal of magnetic resonance imaging : JMRI.
[14] Peng-ju Xu,et al. Utilizing generalized autocalibrating partial parallel acquisition (GRAPPA) to achieve high-resolution contrast-enhanced MR angiography of hepatic artery: initial experience in orthotopic liver transplantation candidates. , 2007, European journal of radiology.
[15] Horst Urbach,et al. Cerebral arteriovenous malformation: Spetzler-Martin classification at subsecond-temporal-resolution four-dimensional MR angiography compared with that at DSA. , 2008, Radiology.
[16] James F Glockner,et al. Undersampled elliptical centric view‐order for improved spatial resolution in contrast‐enhanced MR angiography , 2006, Magnetic resonance in medicine.
[17] P. Boesiger,et al. Contrast‐enhanced 3D MRA using SENSE , 2000, Journal of magnetic resonance imaging : JMRI.
[18] M Law,et al. Time-resolved MR angiography: optimal parallel imaging method. , 2007, AJNR. American journal of neuroradiology.
[19] J Paul Finn,et al. Three-Dimensional Cerebral Contrast-Enhanced Magnetic Resonance Venography at 3.0 Tesla: Initial Results Using Highly Accelerated Parallel Acquisition , 2006, Investigative radiology.
[20] D. Peters,et al. Undersampled projection reconstruction applied to MR angiography , 2000, Magnetic resonance in medicine.
[21] C. Kuhl,et al. Sensitivity encoding (SENSE) for contrast‐enhanced 3D MR angiography of the abdominal arteries , 2005, Journal of magnetic resonance imaging : JMRI.
[22] K. Kent,et al. Contrast material travel times in patients undergoing peripheral MR angiography. , 2002, Radiology.
[23] Stephen J Riederer,et al. Intracranial contrast‐enhanced magnetic resonance venography with 6.4‐fold sensitivity encoding at 1.5 and 3.0 Tesla , 2008, Journal of magnetic resonance imaging : JMRI.
[24] Martin R Prince,et al. 3D contrast‐enhanced MR angiography , 2007, Journal of magnetic resonance imaging : JMRI.
[25] S J Riederer,et al. Fluoroscopically triggered contrast-enhanced three-dimensional MR angiography with elliptical centric view order: application to the renal arteries. , 1997, Radiology.
[26] R Frayne,et al. Time‐resolved contrast‐enhanced 3D MR angiography , 1996, Magnetic resonance in medicine.
[27] Timothy J Carroll,et al. Contrast‐enhanced peripheral magnetic resonance angiography using time‐resolved vastly undersampled isotropic projection reconstruction , 2004, Journal of magnetic resonance imaging : JMRI.
[28] T. Chenevert,et al. Automated detection of bolus arrival and initiation of data acquisition in fast, three-dimensional, gadolinium-enhanced MR angiography. , 1997, Radiology.
[29] N J Pelc,et al. A rapid-gated cine MRI technique. , 1988, Magnetic resonance annual.
[30] Yi Wang,et al. High temporal and spatial resolution 4D MRA using spiral data sampling and sliding window reconstruction , 2004, Magnetic resonance in medicine.
[31] Stephen J Riederer,et al. Intrinsic signal amplification in the application of 2D SENSE parallel imaging to 3D contrast‐enhanced elliptical centric MRA and MRV , 2007, Magnetic resonance in medicine.
[32] P. Boesiger,et al. SENSE: Sensitivity encoding for fast MRI , 1999, Magnetic resonance in medicine.
[33] K. Scheffler,et al. Time-resolved 3D contrast-enhanced MRA with GRAPPA on a 1.5-T system for imaging of craniocervical vascular disease: initial experience , 2006, Neuroradiology.
[34] C J Hardy,et al. Real‐time interactive MRI on a conventional scanner , 1997, Magnetic resonance in medicine.
[35] Robin M Heidemann,et al. Generalized autocalibrating partially parallel acquisitions (GRAPPA) , 2002, Magnetic resonance in medicine.
[36] Peter Boesiger,et al. 2D sense for faster 3D MRI , 2002, Magnetic Resonance Materials in Physics, Biology and Medicine.
[37] James F Glockner,et al. Combination of 2D sensitivity encoding and 2D partial fourier techniques for improved acceleration in 3D contrast‐enhanced MR angiography , 2006, Magnetic resonance in medicine.
[38] R. Edelman,et al. Contrast-enhanced 3D MR angiography with simultaneous acquisition of spatial harmonics: A pilot study. , 2000, Radiology.
[39] Horst Urbach,et al. 4D Time-resolved angiography with CENTRA Keyhole (4D-TRAK) and SENSE using a total acceleration factor of 60 as compared with catheter angiography in patients with cerebral arteriovenous malformations at 3.0T , 2006 .
[40] S J Riederer,et al. Performance of an elliptical centric view order for signal enhancement and motion artifact suppression in breath‐hold three‐dimensional gradient echo imaging , 1997, Magnetic resonance in medicine.
[41] Charles A Mistretta,et al. Whole-body MR angiography using variable density sampling and dual-injection bolus-chase acquisition. , 2008, Magnetic resonance imaging.
[42] I Mader,et al. Dynamic 3D MR angiography of intra- and extracranial vascular malformations at 3T: a technical note. , 2005, AJNR. American journal of neuroradiology.
[43] A Shankaranarayanan,et al. Radial keyhole sequences for low field projection reconstruction interventional MRI , 2001, Journal of magnetic resonance imaging : JMRI.
[44] Catherine Oppenheim,et al. Three-dimensional dynamic MR digital subtraction angiography using sensitivity encoding for the evaluation of intracranial arteriovenous malformations: a preliminary study. , 2005, AJNR. American journal of neuroradiology.
[45] W. Eubank,et al. Utilizing SENSE to reduce scan duration in high‐resolution contrast‐enhanced renal MR angiography , 2006, Journal of magnetic resonance imaging : JMRI.
[46] X. Golay,et al. Time-resolved contrast-enhanced carotid MR angiography using sensitivity encoding (SENSE). , 2001, AJNR. American journal of neuroradiology.
[47] J Velikina,et al. Highly constrained backprojection for time‐resolved MRI , 2006, Magnetic resonance in medicine.
[48] Johannes M Froehlich,et al. Time‐resolved, high‐resolution contrast‐enhanced MR angiography of dialysis shunts using the CENTRA keyhole technique with parallel imaging , 2007, Journal of magnetic resonance imaging : JMRI.
[49] D. Noll,et al. Homodyne detection in magnetic resonance imaging. , 1991, IEEE transactions on medical imaging.
[50] Nicolas Reyns,et al. Intracranial arteriovenous malformation: time-resolved contrast-enhanced MR angiography with combination of parallel imaging, keyhole acquisition, and k-space sampling techniques at 1.5 T. , 2008, Radiology.
[51] D C Harrison,et al. Dynamic gadolinium‐enhanced three‐dimensional abdominal MR arteriography , 1993, Journal of magnetic resonance imaging : JMRI.
[52] W. Manning,et al. Simultaneous acquisition of spatial harmonics (SMASH): Fast imaging with radiofrequency coil arrays , 1997, Magnetic resonance in medicine.
[53] A. Berger. FUNDAMENTALS OF BIOSTATISTICS , 1969 .
[54] S J Riederer,et al. Improved centric phase encoding orders for three‐dimensional magnetization‐prepared mr angiography , 1996, Magnetic resonance in medicine.
[55] Jürgen Hennig,et al. Accelerated time-resolved 3D contrast-enhanced MR angiography at 3T: clinical experience in 31 patients , 2006, Magnetic Resonance Materials in Physics, Biology and Medicine.
[56] N M Rofsky,et al. Hepatic arterial-phase dynamic gadolinium-enhanced MR imaging: optimization with a test examination and a power injector. , 1997, Radiology.
[57] J N Lee,et al. MR fluoroscopy: Technical feasibility , 1988, Magnetic resonance in medicine.
[58] Whitney B Pope,et al. Supraaortic arteries: contrast-enhanced MR angiography at 3.0 T--highly accelerated parallel acquisition for improved spatial resolution over an extended field of view. , 2007, Radiology.