The Importance of MRI for the Indication of Systemic Thrombolysis – Analysis of the First 30 Patients
Authors:
D. Šaňák 1; A. Bártková 1; D. Horák 2; I. Vlachová 1; J. Bučil 2; R. Herzig 1; S. Buřval 2; B. Křupka 1; P. Hubáček 3; J. Zapletalová 4; M. Král 1; M. Köcher 2; M. Heřman 2; P. Kaňovský 1
Authors place of work:
Iktové centrum, Neurologická klinika LF UP a FN Olomouc
1; Radiologická klinika LF UP a FN Olomouc
2; Oddělení urgentního příjmu, FN Olomouc
3; Ústav lékařské biofyziky, biometrie a statistiky LF UP Olomouc
4
Published in the journal:
Cesk Slov Neurol N 2007; 70/103(2): 143-151
Category:
Original Paper
Summary
Aim:
Magnetic resonance (MR) makes accurate the diagnosis of acute cerebral infarction as well as the indication of patients for thrombolytic therapy. The research aimed at demonstrating the benefits of applying MR in the indications of intravenous thrombolysis (IVT) using the analysis of our own set of patients examined with standardized MR protocol and treated with IVT. The authors have assessed their own experience with the use of routine MR.
Set and Methods:
A set consists of 30 patients with acute cerebral infarction treated by means of IVT. The initial size of infarct (VDWI-I) was quantified on the diffusion-weighed sequences. A neurological deficit was determined according to NIH Stroke Scale (N IHSS) at admission after 24 and 72 hours, and then on the 7th day after the ictus development. Resulting clinical state 90 days later was evaluated according to modified Rankin´s scale (mRS). The obtained results were compared to the data of large randomized multicentric studies. The mean2 test and Students´s t-test were used for assessing the statistical significance of results.
Results:
The mean VDWI-I was 21.2 ml, and initial NIHSS 12 ± 5 points. The regression of neurological deficit after 24 hours occurred in significantly higher number of patients (90%) if compared with the studies of NINDS (p < 0.0001) and ECASS I (p = 0.004). Excellent 90-days´ clinicalt result (mRS 0 – 1) was present in significantly higher number of patients (60%) if compared with the studies of NINDS (p = 0.0014), ECASS I (p = 0.001) and II (p = 0.023). In these patients the mean VDWI-I was 13.2ml, and the artery occlusion occurred in 17%.
Conclusion:
The use of MR makes accurate the identification of patients who have a greater probability of good clinical outcome after IVT. These are patients with a small, initial extent of infarction without the extracranial cervical artery occlusion.
Key words:
magnetic resonance, diffusion-weighed display, cerebral ischemia, intravenous thrombolysis
Zdroje
1. Tegos TJ, Kalodiki E, Daskalopoulou SS, Nicolaides AN. Stroke: epidemiology, clinical picture, and risk factors. Part I of III. Angiology 2000; 51: 793-808.
2. ÚZIS ČR. Hospitalizovaní a zemřelí na cévní nemoci mozku v ČR v letech 2001 – 2002. Praha: ÚZIS ČR 2004.
3. The National Institute of Neurological Disorders and stroke rt-PA stroke study group. Tissue plasminogen activator for acute ischemic stroke. New Eng J Med 1995; 333: 1581-87.
4. Hacke W, Kaste M, Fieschi C, von Kummer R, Davalos A, Meier D et al. Randomized double-blind placebo-controlled trial of thrombolytic therapy with intravenous alteplase in acute ischemic stroke (ECASS II). Lancet 1998; 352: 1245-51.
5. Grotta JC, Welch KMA, Fagan SC, Lu M, Frankel M, Brott T and NINDS rt-PA Stroke Study Group. Clinical deterioration following improvement in the NINIDS rt-PA stroke trial. Stroke 2001; 32: 661-8.
6. Schellinger PD, Fiebach JB, Mohr A, Ringleb PA, Jansen O, Hacke W. Thrombolytic therapy for ischemic stroke a review, part I: Intravenous thrombolysis. Crit Care Med 2001; 29: 1812-8.
7. Parson MW, Barber PA, Chalk J, Darby DG, Rose S, Desmond PM et al. Diffusion and perfusion-weighted MRI response to thrombolysis in stroke. Ann Neurol 2002; 51: 28-37.
8. Furlan A, Higashida R, Wechsler L, Gent M, Rowlery H, Kase C et al (for the PROACT investigators). Intra-arterial prourokinase for acute ischemic stroke: the PROACT II study: a randomized controlled trial: Prolyse in acute cerebral thromboembolism. JAMA 1999; 282: 2003-11.
9. Wahlgren NG (Ed). Consensus Statement on Thrombolysis, Karolinska Stroke Update 2000; 28-30.
10. Bateman BT, Schumacher HC, Boden-Albala B, Berman MF, Mohr JP, Sacco RL et al. Factors associated with in-hospital mortality after administration of thrombolysis in acute ischemic stroke patients: an analysis of the nationwide inpatient sample 1999 to 2002. Stroke 2006; 37: 440-6.
11. Walters MR, Muir KW, Harbison J, Lees KR, Ford GA. Intravenous thrombolysis for acute ischaemic stroke: preliminary experience with recombinant tissue plasminogen activator in the UK. Cerebrovasc Dis 2005; 20: 438-42.
12. Qureshi AI, Kirmani JF, Sayed MA, Safdar A, Ahmed S, Ferguson R et al. Buffalo Metropolitan Area and Erie County Stroke Study Group. Time to hospital arrival, use of thrombolytics, and in-hospital outcomes in ischemic stroke. Neurology 2005; 64: 2115-20.
13. Bravata DM. Intravenous thrombolysis in acute ischaemic stroke: optimising its use in routine clinical practice. CNS Drugs 2005; 19: 295-302.
14. Wojner AW, Morgenstern L, Alexandrov AV, Rodriguez D, Persse D, Grotta JC. Paramedic and emergency department care of stroke: baseline data from a citywide performance improvement study. Am J Crit Care 2003; 12: 411-7.
15. Jansen O, Knauth M, Sartor K. Advances in clinical neuroradiology. Akta Neurologie 1999; 26: 1-7.
16. Schellinger PD, Jansen O, Fiebach JB, Heiland S, Steiner T, Schwab S et al. Monitoring intravenous recombinant tissue plasminogen activator thrombolysis for acute ischemic stroke with diffusion and perfusion MRI stroke. Stroke 2000; 31: 1318-28.
17. Fiebach JB, Jansen O, Schellinger PD, Knauth M, Hartmann M, Heiland S et al. Comparison of CT with diffusion-weighted MRI in patients with hyperacute Stroke. Neuroradiology 2001; 43: 628-32.
18. Schellinger PD, Fiebach JB, Jansen O, Ringleb PA, Mohr A, Steiner T et al. Stroke magnetic resonance imaging within 6 hours after onset of hyperacute cerebral ischemia. Ann Neurol 2001; 49: 460-9.
19. Röther J, Schellinger PD, Gass A, Sieber M, Villringer A, Fiebach JB et al. Effect of intravenous thrombolysis on MRI parameters and functional outcome in acute stroke < 6 h. Stroke 2002; 33: 2438-45.
20. Dávalos A, Blanco M, Pedraza S, Leira B, Castellanos M, Pumar JM et al. The Clinical-DWI mismatch: A new diagnostic approach to the brain tissue risk of infarction. Neurology 2004; 62: 2187-92.
21. Hacke W, Kaste M, Fieschi C, Toni D, Lesaffre E, von Kummer R et al. Intravenous thrombolysis with recombinant tissue plasminogen activator for acute hemispheric stroke. The European Cooperative Acute Stroke Study (ECASS). JAMA 1995; 274: 1017-25.
22. Hacke W, Kaste M, Fieschi C, von Kummer R, Davalos A, Meier D et al. Randomised double-blind placebo-controlled trial of thrombolytic therapy with intravenous alteplase in acute ischaemic stroke (ECASS II). Second European-Australasian Acute Stroke Study Investigators. Lancet 1998; 352: 1245-51.
23. Clark WM, Wissman S, Albers GW, Jhamandas JH, Madden KP, Hamilton S et al. Recombinant tissue-type plasminogen activator (Alteplase) for ischemic stroke 3 to 5 hours after symptom onset. The ATLANTIS Study: a randomized controlled trial. Alteplase Thrombolysis for Acute Noninterventional Therapy in Ischemic Stroke.
JAMA 1999; 21: 2019-26.
24. Albers GW, Clark WM, Madden KP, Hamilton SA. ATLANTIS trial: results for patients treated within 3 hours of stroke onset. Alteplase Thrombolysis for Acute Noninterventional Therapy in Ischemic Stroke. Stroke 2002; 33: 493-5.
25. Albers GW. Expanding the window for thrombolytic therapy in acute stroke – the potential role of acute MRI for patient selection. Stroke 1999; 30: 2230-1137.
26. Barber PA, Davis SM, Darby DG, Desmond PM, Gerraty RP, Yang Q et al. Absent middle cerebral artery flow predict the presence and evolution of the ischemic penumbra. Neurology 1999; 52: 1125-32.
27. Schellinger PD, Jansen O, Fiebach JB, Pohlers O, Ryssel H, Heiland S et al. Feasibility and practicality of MR Imaging of stroke in the management of hyperacute cerebral ischemia. AJNR Am J Neuroradiol 2000; 21: 1184-9.
28. Oppenheim C, Logak M, Dormont D, Lehericy S, Manai R, Samson Y et al. Diagnosis of acute ischemic stroke with Fluid Attenuated Inversion Recovery and diffusion-weighted MR sequences. Neuroradiology 2000; 42: 602-7.
29. Samson Y, Crozier S, Deltour S, Obadia M, Manai R, Oppenheim C et al. L´IRM en urgence avant la thrombolyse [abstract]. Revue Neurologique Paris 2002; 158: 1S20.
30. Röther J, Schellinger PD, Gass A, Sieber M, Villringer A, Fiebach JB et al. Effect of intravenous thrombolysis on MRI parameters and functional outcome in acute stroke < 6 h. Stroke 2002; 33: 2438-45.
31. Schellinger PD, Fiebach JB, Hacke W. Imaging-based decision making in thrombolytic therapy for ischemic stroke. Stroke 2003; 34: 575-83.
32. EUSI Recommendations For Stroke Management Update 2003. Cerebrovasc Dis 2003; 16: 311-37.
33. Van Swieten JC, Koudstaal PJ, Visser MC, Schouten HJA, van Gijn J. Interobserver agreement for the assessment of handicap in stroke patients. Stroke 1988; 19: 604-7.
34. Davalos A, Toni D, Iweins F, Lesaffre E, Bastianello S, Castillo J for the ECASS Group. Neurological deterioration in acute ischemic stroke: potential predictors and associated factors in the European Cooperative Acute Stroke Study (ECASS) I. Stroke 1999; 30: 2631-6.
35. Clark WM, Albers GW, Madden KP, Hamilton S. The rtPA 0- to 6-hours acute stroke trial, part A (A0276g): results of a double-blind, placebo-controlled, multicenter study. Stroke 2000; 31: 811-6.
36. Stejskal EO, Tanner JE. Spin diffusion measurements: Spin echoes in the presence of a time-dependent field gradient. J Chem Phys 1965; 42: 288-92.
37. Warach S, Chien D, Li W, Ronthal M, Edelman RR. Fast magnetic resonance diffusion-weighted imaging of acute human stroke. Neurology 1992; 42: 1717-23.
38. Baird AE, Warach S. Magnetic resonance imaging of acute stroke. J Cereb Blood Flow Metab 1998; 18: 583-609.
39. Lovblad KO, Laubach HJ, Baird AE, Curtin F, Schlaug G, Edelman RR et al. Clinical experience with diffusion-weighted MR in patients with acute Stroke. Am J Neuroradiol 1998; 19: 1061-6.
40. Ay H, Buonanno FS, Rodorf G, Schaefer PW, Schwamm LH, Wu O et al. Normal diffusion-weighted MRI during stroke-like dificits. Neurology 1999; 52: 1784-92.
41. Gonzalez RG, Schaefer PW, Buonanno FS, Schwamm LH, Budzik RF, Rordorf G et al. Diffusion-weighted MR imaging: Diagnostic accuracy in patiens imaged within 6 houres of stroke symptom onset. Radiology 1999; 210: 155-62.
42. Neumann-Haefelin T, Moseley ME, Albers GW. New magnetic resonance imaging methods for cerebrovascular disease: Emerging clinical applications. Ann Neurol 2000; 47: 559-70.
43. Oppenheim C, Samson Y, Manai R, Laam T, Vandamme X, Crozier S et al. Prediction of malignant midcerebral artery infarction by diffusion-weighted imaging. Stroke 2000; 31: 2175-81.
44. Jansen O, Brückmann H. Ischemic Brain Diseases. In: Sartor K (Ed). Diagnostic and interventional neuroradiology. Stuttgart: Thieme 2002: 148.
45. Mullins ME, Schaefer PW, Sorensen AG, Halpern EF, Ay H, He J et al. CT and conventional and diffusion-weighted MR imaging in acute stroke: Study in 961 patients at presentation to the emergency departement. Radiology 2002; 224: 353-60.
46. Mullins ME, Lev MH, Schellingerhout D, Koroshetz Wj, Gonzales RG. Influence of availability of clinical history on detection of early stroke using unenhanced CT and diffusion-weighted MR imaging. AJR Am J Roentgenol 2002; 179: 223-8.
47. Miyabe M, Mori S, van Zilj PC, Kirsch JR, Eleff SM, Kochler RC et al. Correlation of the average water diffusion constant with cerebral blood flow and ischemic damage after transient middle cerebral artery occlusion in cats. J Cer Blood Flow Metab 1996; 16: 881-91.
48. Schaefer PW, Hassankhani A, Pulman C, Sorensen G, Schwamm L, Koroshetz W et al. Characterisation and evolution of diffusion MR imaging abnormalities in stroke patiens undergoing intra-arterial thrombolysis. AJNR Am J Neuroradiol 2004; 25: 951-957.
49. Crisostomo RA, Garcia MM, Tong DC. Detection of diffusion-weighted MRI abnormalities in patients with transient ischemic attack. Correlation with clinical
characteristics. Stroke 2003; 34: 932-7.
50. Le Bihan D, Turner R, Douek P, Patronas N. Diffusion MR Imaging: Clinical applications. ARJ Am J Roentgenol 1992; 159: 591-9
51. Noguchi K, Ogawa T, Inugami A, Toyoshima H, Sugawara S, Hatazawa J et al. Acute subarachnoid haemorrhage: MR Imaging with fluid attenuated inversion recovery pulse sequences. Radiology 1995; 196: 773-7.
52. Perkins CJ, Kahya E, Roque CT. Fluid attenuated inversion recovery and diffusion. Stroke 2001; 32: 2774-2781.
53. De Coene B, Hajnal JV, Gatehouse P, Longmore DB, White SJ, Oatridge A et al. MR of the brain using fluid attenuated inversion recovery (FLAIR) pulse sequences. AJNR Am J Neuroradiol 1992;13:1555-64.
54. Taoka T, Iwasaki S, Nakagawa H, Fukusumi A, Kitano S, Yoshioka T et al. Fast fluid attenuated inversion recovery (FAST-FLAIR) of ischemic lesions in the brain: comparision with T2-weighted turbo SE. Radiat Med 1996; 14: 127-31.
55. Linfante I, Llinas RH, Caplan LR, Warach S. MRI features of intracerebral hemorrhagie within 2 hours from symptom onset. Stroke 1999; 30: 2263-7.
56. Kidwell CS, Saver JL, Villablanca JP, Duckwiler G, Fredieu A, Gough K et al.
Magnetic resonance imaging detection of microbleeds before thrombolysis: an emerging application. Stroke 2002; 33: 95-8.
57. Nighoghossian N, Hermier M, Adeleine P, Blanc-Lasserre K, Derex L, Honnoral J et al. Old microbleeds are potential risk for cerebral bleeding after ischemic stroke: a gradient-echo T2*-weighted brain MRI study. Stroke 2002; 33: 735-42.
58. Liu Y, Karonen JO, Vanninen RL, Ostegaard L, Roivainen R, Nuutinen Jet al. Cerebral hemodynamics in human acute ischemic stroke: A study with diffusion and perfusion-weighted magnetic resonance imaging and SPECT. J Cereb Blood Flow Metab 2000; 20: 910-20.
59. Sunshine JL, Tarr RW, Lanzieri CF, Landis DM, Selman WR, Lewin JS. Hyperacute stroke: Ultrafast MR Imaging to triage patients prior to therapy. Radiology 1999; 212: 325-32.
60. Barber PA, Darby DG, Desmond PM, Yang Q, Gerraty RP, Jolley D et al. Prediction of strole outcome with echoplanar perfusion-and diffusion- weighted MRI. Neurology 1998; 51: 418-26.
61. Neumann-Haefelin T, Wttsack HJ, Wenserski F, Siebler M, Seitz RJ, Modder U et al. Diffusion and perfusion-weighted MRI: the DWI/PWI mismatch region in acute stroke. Stroke 1999; 30: 1591-7.
62. Grandin CB, Duprez TP, Smith AM, Mataigne F, Peeters A, Oppeinheim C et al. Usefulness magnetic resonance–derived quantitative measurements of cerebral blood flow and volume in prediction of infarct growth in hyperacute stroke. Stroke 2001; 32: 1147-53.
63. Sorensen AG, Copen WA, Ostergaard L, Buomanno FS, Gonzales RG, Rordorf G et al. Hyperacute stroke: simultaneous measurement of relative cerebral blood volume, relative cerebral blood flow, and mean tissue transit time. Radiology 1999; 210: 519-27.
64. Heiss WD, Sobesky J, Hesselmann V. Identifying thresholds for penumbra and irreversible tissue damage. Stroke 2004; 35(Suppl 1): 2671-4.
65. Oppenheim C, Grandin C, Samson Y, Smith A, Duprez T, Marsault C et al. Is there an apparent diffusion coeficient threshold in predicting tissue viability in hyperacute stroke? Stroke 2001; 32: 2486-91.
66. Schlaug G, Benfield A, Baird AE, Siewert B, Lovblad KO, Parker RA et al. The ischemic penumbra: operationally defined by diffusion and perfussion MRI. Neurology 1999; 53: 1528-37.
67. Fichler J, Knab R, Reichenbach JR, Fitzek C, Weiller C, Rother J. Apparent diffusion coeficient decreases and magnetic resonance imaging perfusion parameters are associated in ischemic tissue of acute stroke patients. J Cereb Blood Flow Metab 2001; 21: 577-84.
68. Röther J, de Crespigny AJ, D´Arceuil H, Iwai K, Moseley ME. Recovery of apparent diffusion coefficient after ischemia-induced spreading depression relates to cerebral perfusion gradient. Stroke 1996; 27: 980-6.
69. Back T, Hoehn-Berlage M, Kohno M, Hosssmann KA. Diffusion nuclear magnetic resonance imaging in experimental stroke: correlation with cerebral metabolites. Stroke 1994; 25: 494-500.
70. Mikulík R, Dufek M. Trombolytická léčba mozkového infarktu – prospektivní sledování souboru pacientů. Čes a Slov Neurol N 2002; 5: 328-33.
71. Bezerra DC, Reichhart M, Maulaz AB, Wintermark M, Michel P, Maedder P et al. Carotid occlusion reopening and subsequent outcome after IV-rtPA therapy within 3 hours of stroke. Neurology 2005; 64(Suppl 1): A263-4.
72. Christou I, Felberg RA, Demchuk AM, Burgin WS, Malkoff M, Grotta JC et al. Intravenous tissue plasminogen activator and flow improvement in acute ischemic stroke patients with internal carotid artery occlusion. J Neuroimaging 2002; 12: 119–23.
73. del Zoppo GJ, Poeck K, Pessin MS, Wolpert SM, Furlan AJ, Ferbert A et al. Recombinant tissue plasminogen activator in acute thrombotic and embolic stroke. Ann Neurol 1992; 32: 78–86.
74. Wolpert SM, Bruckmann H, Greenlee R, Wechsler L, Pepsin MS, del Zoppo GJ. Neuroradiologic evaluation of patients with acute stroke treated with recombinant tissue plasminogen activator: the rt-PA Acute Stroke Study Group. AJNR Am J Neuroradiol 1993;14:3–13.
75. Endo S, Kuwayama N, Hirashima Y, Akai T, Nishijima M, Takaku A. Results of urgent thrombolysis in patients with major stroke and atherothrombotic occlusion of the cervical internal carotid artery. AJNR Am J Neuroradiol 1998; 19: 1169-75.
76. Sugg RM, Malkoff MD, Shaltoni HM, Cacayorin ED, Grotta JC. Endovascular
recanalization of internal carotid occlusion in acute ischemic stroke. Neurology 2005; 64(Suppl 1): A111.
77. Nedeltchev K, Brekenfeld C, Remonda L, Ozdoba C, Do DD, Arnold M et al. Internal carotid artery stent implantation in 25 patients with acute stroke: preliminary results. Radiology 2005; 237: 1029-37.
78. Herzig R, Bar M, Vlachova I, Krupka B, Sanak D, Bachleda P et al. Ischaemic stroke due to the acute internal carotid artery occlusion: Results of the emergent carotid disobliteration versus conservative treatment. Cerebrovasc Dis 2003; 16(Suppl 4): 57-8.
79. Pepsin M, del Zoppo G, Furlan A. Thrombolytic treatment in Acute Stroke. In: Moskowitz M, Caplan LR (Eds). Cerebrovascular diseases: 19th Princeton Stroke Conference. Boston, Mass: Butterworth-Heinemann; 1995: 409-18.
80. Tomcik T, Brott T, Barsan W, Broderick J, Haley EC, Spilker J et al. Prognostic value of the hyperdense middle cerebral artery sign and stroke scale before ultra early thrombolytic therapy. AJNR Am J Neuroradiol 1996; 17: 79-85.
81. Lisboa RC, Jovanovic BD, Alberts MJ. Analysis of the safety and efficacy of intra-arterial thrombolytic therapy in ischemic stroke. Stroke 2002; 33: 2866-71.
82. Arnold M, Schroth G, Nedeltchev K, Loher T, Remonda L, Stepper F et al. Intra-arterial thrombolysis in 100 patients with acute stroke due to middle cerebral artery occlusion. Stroke 2002; 33: 1828-33.
83. Kim DJ, Kim DI, Kim SH, Lee KY, Heo JH, Han SW. Rescue localized intra-arterial thrombolysis for hyperacute MCA ischemic stroke patiens after early non-responsive intravenous tissue plasminogen activator therapy. Neuroradiology 2005; 47: 616-21.
84. Roberts HC, Dillon WP, Furlan AJ, Rowley HA, Fischbein NJ, Highasida RT et al. Angiographic collaterals in acute ischemic stroke: relationship to clinical presentation and outcome: the PROACT II, In: 26th International Stroke Conference, Fort Lauderable, Fla; 2001: 4.
85. Selim M, Fink JN, Kumar S, Caplan LR, Horkan C, Chen Y et al. Predictors of hemorrhagic transformation after intravenous recombinant tissue plasminogen activator. Stroke 2002; 33: 2047-52.
86. Šaňák D, Horák D, Nosál´ V, Bártková A, Zeleňák K, Herzig R et al. Impact of initial cerebral infarction volume measured in diffusion-weighted MRI on clinical outcome in acute stroke patiens with middle cerebral artery occlusion, who underwent thrombolysis. A pilot study. Neurology 2006; 66(Suppl 2): 108.
87. Derex L, Nighoghossian N, Hermier M, Adeleine P, Berthezène, Philippeau F et al. Influence of pretreatment MRI parameters on clinical outcome, recanalization and infarct size in 49 stroke patients treated by intravenous tissue plasminogen activator. Journal of the Neurological Sciences 2004; 225: 3-9.
Štítky
Paediatric neurology Neurosurgery NeurologyČlánok vyšiel v časopise
Czech and Slovak Neurology and Neurosurgery
2007 Číslo 2
- Memantine Eases Daily Life for Patients and Caregivers
- Metamizole at a Glance and in Practice – Effective Non-Opioid Analgesic for All Ages
- Advances in the Treatment of Myasthenia Gravis on the Horizon
- Metamizole vs. Tramadol in Postoperative Analgesia
Najčítanejšie v tomto čísle
- Epilepsy and the Sleep-Waking Cycle
- The Current View of the Diagnostics and Therapy of Aphasias
- Complications of the Anterior Cervical Spine Surgery for a Degenerative Disease
- Worsening of Epileptic Seizures and Epilepsies due to Antiepileptic Drugs – is it Possible?