Top

Published in:

01-04-2006 | Diagnostic Neuroradiology

Multimodal MR examination in acute ischemic stroke

Authors: D. M. Mezzapesa, M. Petruzzellis, V. Lucivero, M. Prontera, A. Tinelli, M. Sancilio, A. Carella, F. Federico

Published in: Neuroradiology | Issue 4/2006

Abstract

In recent years, combined diffusion-weighted imaging (DWI) with perfusion imaging (PI) has become an important investigational tool in the acute phase of ischemic stroke, as it may differentiate reversible from irreversible brain tissue damage. We consecutively examined 20 subjects within 12 h of stroke onset using a multiparametric magnetic resonance (MR) examination consisting of DWI, mean transit time (MTT) as PI parameter, and MR angiography (MRA). T2-weighted and fluid-attenuated inversion recovery (FLAIR) on day 7 were also acquired in order to obtain final infarct volume. The following MR parameters were considered: volumetric measures of lesion growth and MTT abnormalities, quantification of regional apparent diffusion coefficient (ADC) and visual inspection of MRA findings. Our results showed: (1) an acute DWI lesion was not predictive of lesion growth and the DWI abnormality did not represent the irreversibly infarcted tissue; (2) ADC values in the ischemic penumbra could not predict tissue at risk; (3) the DWI–PI mismatch did not predict lesion growth, and the PI abnormality overestimated the amount of tissue at risk; and (4) patients with proximal middle cerebral artery occlusion had greater initial and final infarct volumes. This study did not demonstrate the prognostic value of a multimodal MR approach in early ischemic stroke; MRA alone provided predictive information about the volumetric evolution of the lesion.

Warach S, Gaa J, Siewert B, Wielopolski P, Edelman RR (1995) Acute human stroke studied by whole brain echo planar diffusion-weighted magnetic resonance imaging. Ann Neurol 37:231–241CrossRefPubMed

Perkins CJ, Kahya E, Roque CT, Roche PE, Newman GC (2001) Fluid-attenuated inversion recovery and diffusion- and perfusion-weighted MRI abnormalities in 117 consecutive patients with stroke symptoms. Stroke 32:2774–2781PubMedCrossRef

Fisher M, Brott TG (2003) Emerging therapies for acute ischemic stroke: new therapies on trial. Stroke 34:359–361CrossRefPubMed

Guadagno JV, Donnan GA, Markus R, Gillard JH, Baron JC (2004) Imaging the ischaemic penumbra. Curr Opin Neurol 17:61–67CrossRefPubMed

Keir SL, Wardlaw JM (2000) Systematic review of diffusion and perfusion imaging in acute ischemic stroke. Stroke 31:2723–2731PubMed

Arenillas JF, Rovira A, Molina CA, Grive E, Montaner J, Alvarez-Sabin J (2002) Prediction of early neurological deterioration using diffusion- and perfusion-weighted imaging in hyperacute middle cerebral artery ischemic stroke. Stroke 33:2197–2203CrossRefPubMed

Neumann-Haefelin T, Wittsack HJ, Wenserski F, Siebler M, Seitz RJ, Mödder U, Freund HJ (1999) Diffusion- and perfusion-weighted MRI the DWI/PWI mismatch region in acute stroke. Stroke 30:1591–1597PubMed

Desmond PM, Lovell AC, Rawlinson AA, Parsons MW, Barber PA, Yang Q, Li T, Darby DG, Gerraty RP, Davis SM, Tress BM (2001) The value of apparent diffusion coefficient maps in early cerebral ischemia. AJNR Am J Neuroradiol 22:1260–1267PubMed

Oppenheim C, Grandin C, Samson Y, Smith A, Duprez T, Marsault C, Cosnard G (2001) Is there an apparent diffusion coefficient threshold in predicting tissue viability in hyperacute stroke? Stroke 32:2486–2491PubMedCrossRef

10.

Shih LC, Saver JL, Alger JR, Starkman S, Leary MC, Vinuela F, Duckwiler G, Gobin YP, Jahan R, Villablanca JP, Vespa PM, Kidwell CS (2003) Perfusion-weighted magnetic resonance imaging thresholds identifying core, irreversibly infarcted tissue. Stroke 34:1425–1430CrossRefPubMed

11.

Schaefer PW, Ozsunar Y, He J, Hamberg LM, Hunter GJ, Sorensen AG, Koroshetz WJ, Gonzalez RG (2003) Assessing tissue viability with MR diffusion and perfusion imaging. AJNR Am J Neuroradiol 24:436–443PubMed

12.

Kidwell CS, Alger JR, Saver JL (2004) Evolving paradigms in neuroimaging of the ischemic penumbra. Stroke 35:2662–2665CrossRefPubMed

13.

Rordorf G, Koroshetz WJ, Copen WA, Cramer SC, Schaefer PW, Budzik RF Jr, Schwamm LH, Buonanno F, Sorensen AG, Gonzalez G (1998) Regional ischemia and ischemic injury in patients with acute middle cerebral artery stroke as defined by early diffusion-weighted and perfusion-weighted MRI. Stroke 29:939–943PubMed

14.

Barber P, Davis SM, Darby DG, Desmond PM, Gerraty RP, Yang Q, Jolley D, Donnan GA, Tress BM (1999) Absent middle cerebral artery flow predicts the presence and evolution of the ischemic penumbra. Neurology 52:1125–1132PubMed

15.

Staroselskaya IA, Chaves C, Silver B, Linfante I, Edelman RR, Caplan L, Warach S, Baird AE (2001) Relationship between magnetic resonance arterial patency and perfusion-diffusion mismatch in acute ischemic stroke and its potential clinical use. Arch Neurol 58:1069–1074CrossRefPubMed

16.

Liu Y, Karonen JO, Vanninen RL, Nuutinen J, Koskela A, Soimakallio S, Aronen HJ (2004) Acute ischemic stroke: predictive value of 2D phase-contrast MR angiography—serial study with combined diffusion and perfusion MR imaging. Radiology 231:517–527PubMedCrossRef

17.

Brott T, Adams HP Jr, Olinger CP, Marler JR, Barsan WG, Biller J, Spilker J, Holleran R, Eberle R, Hertzberg V, Rorick M, Moomaw CJ, Walker M (1989) Measurements of acute cerebral infarction: a clinical examination scale. Stroke 20:864–870PubMed

18.

van Swieten JC, Koudstaal PJ, Visser MC, Schouten HJ, van Gijn J (1988) Interobserver agreement for the assessment of handicap in stroke patients. Stroke 19:604–607PubMed

19.

Adams HP Jr, Bendixen BH, Kappelle LJ, Biller J, Love BB, Gordon DL, Marsh EE (1993) Classification of subtype of acute ischemic stroke. Definitions for use in a multicenter clinical trial. TOAST. Trial of Org 10172 in Acute Stroke Treatment. Stroke 24:35–41PubMed

20.

Bamford J, Sandercock P, Dennis M, Burn J, Warlow C (1991) Classification and natural history of clinically identifiable subtypes of cerebral infarction. Lancet 337:1521–1526CrossRefPubMed

21.

Stejskal EO, Tanner JE (1965) Spin diffusion measurements: spin echoes in the presence of time-dependent field gradient. J Chem Phys 42:288–292CrossRef

22.

Schellinger PD, Fiebach JB, Jansen O, Ringleb PA, Mohr A, Steiner T, Heiland S, Schwab S, Pohlers O, Ryssel H, Orakcioglu B, Sartor K, Hacke W (2001) Stroke magnetic resonance imaging within 6 hours after onset of hyperacute cerebral ischemia. Ann Neurol 49:460–469CrossRefPubMed

23.

Wittsack HJ, Ritzl A, Fink GR, Wenserski F, Siebler M, Seitz RJ, Modder U, Freund HJ (2002) MR imaging in acute stroke: diffusion-weighted and perfusion imaging parameters for predicting infarct size. Radiology 222:397–403PubMedCrossRef

24.

Ritzl A, Meisel S, Wittsack HJ, Fink GR, Siebler M, Modder U, Seitz RJ (2004) Related development of brain infarct volume as assessed by magnetic resonance imaging (MRI): follow-up of diffusion-weighted MRI lesions. J Magn Reson Imaging 20:201–207CrossRefPubMed

25.

Hermier M, Nighoghossian N, Derex L, Adeleine P, Wiart M, Berthezene Y, Cotton F, Pialat JB, Dardel P, Honnorat J, Trouillas P, Froment JC (2003) Hypointense transcerebral veins at T2*-weighted MRI: a marker of hemorrhagic transformation risk in patients treated with intravenous tissue plasminogen activator. J Cereb Blood Flow Metab 23:1362–1370CrossRefPubMed

26.

Fiehler J, Fiebach JB, Glass A, Hoehn M, Kucinski T, Neumann-Haefelin T, Schellinger PD, Siebler M, Villringer A, Röther J (2002) Diffusion-weighted imaging in acute stroke – a tool of uncertain value? Cerebrovasc Dis 14:187–196CrossRefPubMed

27.

Moseley ME, Cohen Y, Mintorovitch J, Chileuitt L, Shimizu H, Kucharczyk J, Wendland MF, Weinstein PR (1990) Early detection of regional cerebral ischemia in cats: comparison of diffusion- and T2-weighted MRI and spectroscopy. Magn Reson Med 14:330–346PubMedCrossRef

28.

Fisher M, Garcia JH (1996) Evolving stroke and the ischemic penumbra. Neurology 47:884–888PubMed

29.

Kidwell CS, Saver JL, Mattiello J, Starkman S, Vinuela F, Duckwiler G, Gobin YP, Jahan R, Vespa P, Kalafut M, Alger JR (2000) Thrombolytic reversal of acute human cerebral ischemic injury shown by diffusion/perfusion magnetic resonance imaging. Ann Neurol 47:462–469CrossRefPubMed

30.

Chalela JA, Kang DW, Luby M, Ezzeddine M, Latour LL, Todd JW, Dunn B, Warach S (2004) 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 55:105–112CrossRefPubMed

31.

Fiehler J, Knudsen K, Kucinski T, Kidwell CS, Alger JR, Thomalla G, Eckert B, Wittkugel O, Weiller C, Zeumer H, Rother J (2004) Predictors of apparent diffusion coefficient normalization in stroke patients. Stroke 35:514–519CrossRefPubMed

32.

DeLaPaz RL, Shibata D, Steinberg GK, Zarnegar R, George C (1991) Acute cerebral ischemia in rabbits: correlation between MR and histopathology. AJNR Am J Neuroradiol 12:89–95PubMed

33.

Mack WJ, Komotar RJ, Mocco J, Coon AL, Hoh DJ, King RG, Ducruet AF, Ransom ER, Oppermann M, DeLaPaz R, Connolly ES Jr (2003) Serial magnetic resonance imaging in experimental primate stroke: validation of MRI for pre-clinical cerebroprotective trials. Neurol Res 25:846–852CrossRefPubMed

34.

Noguchi K, Ogawa T, Inugami A, Fujita H, Hatazawa J, Shimosegawa E, Okudera T, Uemura K, Seto H (1997) MRI of acute cerebral infarction: a comparison of FLAIR and T2-weighted fast spin-echo imaging. Neuroradiology 39:406–410CrossRefPubMed

35.

Ricci PE, Burdette JH, Elster AD, Reboussin DM (1999) A comparison of fast spin-echo, fluid-attenuated inversion-recovery, and diffusion-weighted MR imaging in the first 10 days after cerebral infarction. AJNR Am J Neuroradiol 20:1535–1542PubMed

36.

O’Brien P, Sellar RJ, Wardlaw JM (2004) Fogging on T2-weighted MR after acute ischaemic stroke: how often might this occur and what are the implications? Neuroradiology 46:635–641PubMedCrossRef

37.

Fiehler J, Knab R, Reichenbach JR, Fitzek C, Weiller C, Rother J (2001) Apparent diffusion coefficient decreases and magnetic resonance imaging perfusion parameters are associated in ischemic tissue of acute stroke patients. J Cereb Blood Flow Metab 21:577–584CrossRefPubMed

38.

Jiang Q, Zhang ZG, Chopp M, Helpern JA, Ordidge RJ, Garcia JH, Marchese BA, Qing ZX, Knight RA (1993) Temporal evolution and spatial distribution of the diffusion constant of water in rat brain after transient middle cerebral artery occlusion. J Neurol Sci 120:123–130CrossRefPubMed

39.

Mancuso A, Nimura T, Weinstein PR (1997) Prediction of delayed ischemic injury with diffusion-weighted MRI following temporary middle cerebral artery occlusion in rats. Brain Res 760:42–51CrossRefPubMed

40.

Sorensen AG, Copen WA, Ostergaard L, Buonanno FS, Gonzalez RG, Rordorf G, Rosen BR, Schwamm LH, Weisskoff RM, Koroshetz WJ (1999) Hyperacute stroke: simultaneous measurement of relative cerebral blood volume, relative cerebral blood flow, and mean tissue transit time. Radiology 210:519–527PubMed

41.

Calamante F, Gadian DG, Connelly A (2002) Quantification of perfusion using bolus tracking magnetic resonance imaging in stroke: assumptions, limitations, and potential implications for clinical use. Stroke 33:1146–1151CrossRefPubMed

42.

Grandin CB (2003) Assessment of brain perfusion with MRI: methodology and application to acute stroke. Neuroradiology 45:755–766CrossRefPubMed

43.

Yamada K, Wu O, Gonzalez RG, Bakker D, Ostergaard L, Copen WA, Weisskoff RM, Rosen BR, Yagi K, Nishimura T, Sorensen AG (2002) Magnetic resonance perfusion-weighted imaging of acute cerebral infarction: effect of the calculation methods and underlying vasculopathy. Stroke 33:87–94CrossRefPubMed

44.

Neumann-Haefelin T, Wittsack HJ, Fink GR, Wenserski F, Li TQ, Seitz RJ, Siebler M, Modder U, Freund HJ (2000) Diffusion- and perfusion-weighted MRI: influence of severe carotid artery stenosis on the DWI/PWI mismatch in acute stroke. Stroke 31:1311–1317PubMed

45.

Kwon JH, Kwon SU, Lee JH, Choi CG, Suh DC, Kim JS (2004) Factors affecting the angiographic recanalization and early clinical improvement in middle cerebral artery territory infarction after thrombolysis. Arch Neurol 61:1682–1686CrossRefPubMed

46.

Derex L, Hermier M, Adeleine P, Pialat JB, Wiart M, Berthezene Y, Froment JC, Trouillas P, Nighoghossian N (2004) Influence of the site of arterial occlusion on multiple baseline hemodynamic MRI parameters and post-thrombolytic recanalization in acute stroke. Neuroradiology 46:883–887CrossRefPubMed

Title: Multimodal MR examination in acute ischemic stroke
Authors: D. M. Mezzapesa
M. Petruzzellis
V. Lucivero
M. Prontera
A. Tinelli
M. Sancilio
A. Carella
F. Federico
Publication date: 01-04-2006
Publisher: Springer-Verlag
Published in: Neuroradiology / Issue 4/2006
Print ISSN: 0028-3940
Electronic ISSN: 1432-1920
DOI: https://doi.org/10.1007/s00234-005-0045-0

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Multimodal MR examination in acute ischemic stroke

Abstract

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 4/2006

Single-center experience with TruFill platinum coils for the embolization of cerebral aneurysms

Reply

Reversal of a 30-h fixed deficit with carotid angioplasty and stenting: technical note

MR imaging of recent non-traumatic intracranial hemorrhage: early experience at 3 T

MR signal of the solid portion of pilocytic astrocytoma on T2-weighted images:is it useful for differentiation from medulloblastoma?

S.J. Read, D. Virley (eds): Stroke genomics: method and reviews