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Expert Review of Neurotherapeutics Volume 6, 2006 - Issue 6
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Review

Ultrafast magnetic resonance imaging protocols in stroke

Martin J Graves Consultant Clinical Scientist, University of Cambridge Hospitals NHS Foundation Trust, Departments of Radiology and Medical Physics, Hills Road, Cambridge, CB2 2QQ, UK. [email protected]
,
Jean U-King-Im Clinical Lecturer, University of Cambridge Hospitals NHS Foundation Trust, Department of Radiology, Hills Road, Cambridge, CB2 2QQ, UK. [email protected]
,
Simon Howarth Clinical Research Associate in Neuroimaging/Honorary Specialist Registrar, University of Cambridge Hospitals NHS Foundation Trust, Department of Radiology, Hills Road, Cambridge, CB2 2QQ, UK. [email protected]
&
Jonathan H Gillard Reader/ Honorary Consultant Radiologist, University of Cambridge Hospitals NHS Foundation Trust, Department of Radiology, Hills Road, Cambridge, CB2 2QQ, UK. [email protected]
Pages 921-930 | Published online: 10 Jan 2014

References

  • Hacke W, Donnan G, Fieschi C et al. Association of outcome with early stroke treatment: pooled analysis of ATLANTIS, ECASS, and NINDS rt-PA stroke trials. Lancet363(9411), 768–774 (2004).
  • Sorensen AG, Buonanno FS, Gonzalez RG et al. Hyperacute stroke: evaluation with combined multisection diffusion-weighted and hemodynamically weighted echo-planar MR imaging. Radiology199(2), 391–401 (1996).
  • Provenzale JM, Sorensen AG. Diffusion-weighted MR imaging in acute stroke: theoretic considerations and clinical applications. AJNR Am. J. Roentgenol.173(6), 1459–1467 (1999).
  • Lev MH. CT versus MR for acute stroke imaging: is the “obvious” choice necessarily the correct one? AJNR Am. J. Neuroradiol.24(10), 1930–1931 (2003).
  • Warach S, Gaa J, Siewert B, Wielopolski P, Edelman RR. Acute human stroke studied by whole brain echo planar diffusion-weighted magnetic resonance imaging. Ann. Neurol.37(2), 231–241 (1995).
  • Hacke W, Albers G, Al-Rawi Y et al. The Desmoteplase in Acute Ischemic Stroke Trial (DIAS): a Phase II MRI-based 9-hour window acute stroke thrombolysis trial with intravenous desmoteplase. Stroke36(1), 66–73 (2005).
  • Albers GW, Clark WM, Madden KP, Hamilton SA. ATLANTIS trial: results for patients treated within 3 h of stroke onset. alteplase thrombolysis for acute noninterventional therapy in ischemic stroke. Stroke33(2), 493–495 (2002).
  • Sunshine JL, Tarr RW, Lanzieri CF, Landis DM, Selman WR, Lewin JS. Hyperacute stroke: ultrafast MR imaging to triage patients prior to therapy. Radiology212(2), 325–332 (1999).
  • Schellinger PD, Jansen O, Fiebach JB et al. Feasibility and practicality of MR imaging of stroke in the management of hyperacute cerebral ischemia. AJNR Am. J. Neuroradiol.21(7), 1184–1189 (2000).
  • Hand PJ, Wardlaw JM, Rowat AM, Haisma JA, Lindley RI, Dennis MS. Magnetic resonance brain imaging in patients with acute stroke: feasibility and patient related difficulties. J. Neurol. Neurosurg. Psychiatry76(11), 1525–1527 (2005).
  • Johnson AJ, Kido DK, Shannon WD et al. Evaluation of a reduced MR imaging sequencing protocol in adult patients with stroke. Radiology218(3), 791–797 (2001).
  • Arnould MC, Grandin CB, Peeters A, Cosnard G, Duprez TP. Comparison of CT and three MR sequences for detecting and categorizing early (48 h) hemorrhagic transformation in hyperacute ischemic stroke. AJNR Am. J. Neuroradiol.25(6), 939–944 (2004).
  • Lin DD, Filippi CG, Steever AB, Zimmerman RD. Detection of intracranial hemorrhage: comparison between gradient-echo images and b0 images obtained from diffusion-weighted echo-planar sequences. AJNR Am. J. Neuroradiol.22(7), 1275–1281 (2001).
  • Liu Y, Karonen JO, Vanninen RL et al. Acute ischemic stroke: predictive value of 2D phase-contrast MR angiography – serial study with combined diffusion and perfusion MR imaging. Radiology231(2), 517–527 (2004).
  • Wright VL, Olan W, Dick B et al. Assessment of CE-MRA for the rapid detection of supra-aortic vascular disease. Neurology65(1), 27–32 (2005).
  • Korosec FR, Turski PA, Carroll TJ, Mistretta CA, Grist TM. Contrast-enhanced MR angiography of the carotid bifurcation.J. Magn. Reson. Imaging10(3), 317–325 (1999).
  • Warach S, Chien D, Li W, Ronthal M, Edelman RR. Fast magnetic resonance diffusion-weighted imaging of acute human stroke. Neurology42(9), 1717–1723 (1992).
  • Schaefer PW, Grant PE, Gonzalez RG. Diffusion-weighted MR imaging of the brain. Radiology217(2), 331–345 (2000).
  • Powers WJ. Testing a test: a report card for DWI in acute stroke. Neurology54(8), 1549–1551 (2000).
  • Wang PY, Barker PB, Wityk RJ, Ulug AM, van Zijl PC, Beauchamp NJ Jr. Diffusion-negative stroke: a report of two cases. AJNR Am. J. Neuroradiol.20(10), 1876–1880 (1999).
  • Oppenheim C, Stanescu R, Dormont D et al. False-negative diffusion-weighted MR findings in acute ischemic stroke. AJNR Am. J. Neuroradiol.21(8), 1434–1440 (2000).
  • Wang W, Goldstein S, Scheuer ML, Branstetter BF. Acute stroke syndrome with fixed neurological deficit and false-negative diffusion-weighted imaging. J. Neuroimaging13(2), 158–161 (2003).
  • Wong YY, Lam WW. Diffusion-weighted imaging in hyperacute stroke – gold standard? Acta. Radiol.44(5), 547–549 (2003).
  • Kohno K, Hoehn-Berlage M, Mies G, Back T, Hossmann KA. Relationship between diffusion-weighted MR images, cerebral blood flow, and energy state in experimental brain infarction. Magn. Reson. Imaging13(1), 73–80 (1995).
  • Harris AD, Pereira RS, Mitchell JR, Hill MD, Sevick RJ, Frayne R. A comparison of images generated from diffusion-weighted and diffusion-tensor imaging data in hyper-acute stroke.J. Magn. Reson. Imaging20(2), 193–200 (2004).
  • Detre JA. MR perfusion imaging of hyperacute stroke. AJNR Am. J. Neuroradiol.22(5), 806–807 (2001).
  • Baird AE, Benfield A, Schlaug G et al. Enlargement of human cerebral ischemic lesion volumes measured by diffusion-weighted magnetic resonance imaging. Ann. Neurol.41(5), 581–589 (1997).
  • Rordorf G, Koroshetz WJ, Copen WA et al. Regional ischemia and ischemic injury in patients with acute middle cerebral artery stroke as defined by early diffusion-weighted and perfusion-weighted MRI. Stroke29(5), 939–943 (1998).
  • Hossmann KA. Viability thresholds and the penumbra of focal ischemia. Ann. Neurol.36(4), 557–565 (1994).
  • Schlaug G, Benfield A, Baird AE et al. The ischemic penumbra: operationally defined by diffusion and perfusion MRI. Neurology53(7), 1528–1537 (1999).
  • Parsons MW, Barber PA, Chalk J et al. Diffusion- and perfusion-weighted MRI response to thrombolysis in stroke. Ann. Neurol.51(1), 28–37 (2002).
  • Kidwell CS, Alger JR, Saver JL. Beyond mismatch: evolving paradigms in imaging the ischemic penumbra with multimodal magnetic resonance imaging. Stroke34(11), 2729–2735 (2003).
  • Parsons MW, Yang Q, Barber PA et al. Perfusion magnetic resonance imaging maps in hyperacute stroke: relative cerebral blood flow most accurately identifies tissue destined to infarct. Stroke32(7), 1581–1587 (2001).
  • Mitsias PD, Jacobs MA, Hammoud R et al. Multiparametric MRI ISODATA ischemic lesion analysis: correlation with the clinical neurological deficit and single-parameter MRI techniques. Stroke33(12), 2839–2844 (2002).
  • Wu O, Koroshetz WJ, Ostergaard L et al. Predicting tissue outcome in acute human cerebral ischemia using combined diffusion- and perfusion-weighted MR imaging. Stroke32(4), 933–942 (2001).
  • Kidwell CS, Saver JL, Mattiello J et al. Thrombolytic reversal of acute human cerebral ischemic injury shown by diffusion/perfusion magnetic resonance imaging. Ann. Neurol.47(4), 462–469 (2000).
  • Chalela JA, Kang DW, Luby M et al. Early magnetic resonance imaging findings in patients receiving tissue plasminogen activator predict outcome: insights into the pathophysiology of acute stroke in the thrombolysis era. Ann. Neurol.55(1), 105–112 (2004).
  • Sodickson DK, Manning WJ. Simultaneous acquisition of spatial harmonics (SMASH): fast imaging with radiofrequency coil arrays. Magn. Reson Med.38(4), 591–603 (1997).
  • Pruessmann KP, Weiger M, Scheidegger MB, Boesiger P. SENSE: sensitivity encoding for fast MRI. Magn. Reson Med.42(5), 952–962 (1999).
  • Griswold MA, Jakob PM, Heidemann RM et al. Generalized autocalibrating partially parallel acquisitions (GRAPPA). Magn. Reson Med.47(6), 1202–1210 (2002).
  • Weiger M, Pruessmann KP, Boesiger P. 2D SENSE for faster 3D MRI. Magma14(1), 10–19 (2002).
  • van den Brink JS, Watanabe Y, Kuhl CK et al. Implications of SENSE MR in routine clinical practice. Eur. J. Radiol.46(1), 3–27 (2003).
  • Bammer R, Keeling SL, Augustin M et al. Improved diffusion-weighted single-shot echo-planar imaging (EPI) in stroke using sensitivity encoding (SENSE). Magn. Reson Med.46(3), 548–554 (2001).
  • Willinek WA, Gieseke J, von Falkenhausen M, Neuen B, Schild HH, Kuhl CK. Sensitivity encoding for fast MR imaging of the brain in patients with stroke. Radiology228(3), 669–675 (2003).
  • Augustin M, Fazekas F, Bammer R. Fast patient workup in acute stroke using parallel imaging. Top Magn. Reson. Imaging15(3), 207–219 (2004).
  • U-King-Im JM, Trivedi RA, Graves MJ et al. Utility of an ultrafast magnetic resonance imaging protocol in recent and semi-recent strokes. J. Neurol. Neurosurg. Psychiatry76(7), 1002–1005 (2005).
  • Pipe JG. Motion correction with PROPELLER MRI: application to head motion and free-breathing cardiac imaging. Magn. Reson. Med.42(5), 963–969 (1999).
  • Forbes KP, Pipe JG, Bird CR, Heiserman JE. PROPELLER MRI: clinical testing of a novel technique for quantification and compensation of head motion.J. Magn. Reson. Imaging14(3), 215–222 (2001).
  • Arfanakis K, Tamhane AA, Pipe JG, Anastasio MA. K-space undersampling in PROPELLER imaging. Magn. Reson. Med.53(3), 675–683 (2005).
  • Pipe JG, Farthing VG, Forbes KP. Multishot diffusion-weighted FSE using PROPELLER MRI. Magn. Reson. Med.47(1), 42–52 (2002).
  • Forbes KP, Pipe JG, Karis JP, Heiserman JE. Improved image quality and detection of acute cerebral infarction with PROPELLER diffusion-weighted MR imaging. Radiology225(2), 551–555 (2002).
  • Calamante F, Gadian DG, Connelly A. Quantification of perfusion using bolus tracking magnetic resonance imaging in stroke: assumptions, limitations, and potential implications for clinical use. Stroke33(4), 1146–1151 (2002).
  • Schmitz BL, Aschoff AJ, Hoffmann MH, Gron G. Advantages and pitfalls in 3T MR brain imaging: a pictorial review. AJNR Am. J. Neuroradiol.26(9), 2229–2237 (2005).
  • Siewert B, Schlaug G, Edelman RR, Warach S. Comparison of EPISTAR and T2*-weighted gadolinium-enhanced perfusion imaging in patients with acute cerebral ischemia. Neurology48(3), 673–679 (1997).
  • Beauchamp NJ Jr., Barker PB, Wang PY, vanZijl PCM. Imaging of acute cerebral ischemia. Radiology212(2), 307–324 (1999).
  • Dydak U, Weiger M, Pruessmann KP, Meier D, Boesiger P. Sensitivity-encoded spectroscopic imaging. Magn. Reson. Med.46(4), 713–722 (2001).
  • Lee JM, Vo KD, An H et al. Magnetic resonance cerebral metabolic rate of oxygen utilization in hyperacute stroke patients. Ann. Neurol.53(2), 227–232 (2003).
  • Muir KW, Halbert HM, Baird TA, McCormick M, Teasdale E. Visual evaluation of perfusion CT imaging in acute stroke accurately estimates infarct volume and tissue viability. J. Neurol. Neurosurg. Psychiatry77(3), 334–349 (2006).
  • Parsons MW, Pepper EM, Chan V et al. Perfusion computed tomography: Prediction of final infarct extent and stroke outcome. Ann. Neurol.58(5), 672–679 (2005).
  • Thulborn KR, Gindin TS, Davis D, Erb P. Comprehensive MR imaging protocol for stroke management: tissue sodium concentration as a measure of tissue viability in nonhuman primate studies and in clinical studies. Radiology213(1), 156–166 (1999).

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