Perfusion CTによる超急性期脳虚血の血行再建術適応基準について

We performed perfusion computed tomography (PCT) in patients with hyper-acute stroke to evaluate its usefulness for the indication of percutaneous transluminal revascularization. The subjects were 21 patients with stroke in the carotid system admitted within a few hours of onset when no ischemic cha...

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Published in	脳卒中の外科 Vol. 31; no. 5; pp. 326 - 333
Main Authors	池田, 尚人, 阿部, 琢己, 中島, 雅央, 鈴木, 泰篤
Format	Journal Article
Language	Japanese
Published	一般社団法人日本脳卒中の外科学会 2003
Subjects	infarction perfusion CT stroke thrombolysis
Online Access	Get full text
ISSN	0914-5508 1880-4683
DOI	10.2335/scs.31.326

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Abstract	We performed perfusion computed tomography (PCT) in patients with hyper-acute stroke to evaluate its usefulness for the indication of percutaneous transluminal revascularization. The subjects were 21 patients with stroke in the carotid system admitted within a few hours of onset when no ischemic change could be detected by the initial CT but was already present as confirmed by PCT parameters of either mean transit time (MTT), cerebral blood flow (CBF) or cerebral blood volume (CBV). Percutaneous transluminal revascularization was performed in all patients at the earliest possible opportunity. The CBF and CBV values were calculated in regions of interest (ROIs) selected in the ischemic lesion, and compared with the same location on the opposite side (ROI ratio). Patients with visual decreases in CBF and CBV as well as delay of MTT suffered severe infarction. Patients with only delay of MTT were saved from extensive infarction by the reperfusion treatment. Some patients with ischemia visually identified by both MTT and CBF suffered severe infarction, but others only had localized infarction. The ROI ratio of the CBV was increased in these patients with localized infarction but decreased in the patients with severe infarction. The mean ROI ratios associated with subsequent infarction were 0.438 ± 0.276 (mean ± SD) for CBF and 0.873 ± 0.290 for CBV, and those associated with no subsequent infarction were 0.862 ± 0.429 for CBF and 1.289 ± 0.486 for CBV. Delay of MTT indicates reconstruction whereas decreased CBV carries no indication. The decision-making is difficult in patients in whom visual evaluation cannot confirm decreased CBF. In such cases, the ROI ratio of CBV must be measured if any decrease in CBF is suspected.
AbstractList	We performed perfusion computed tomography (PCT) in patients with hyper-acute stroke to evaluate its usefulness for the indication of percutaneous transluminal revascularization. The subjects were 21 patients with stroke in the carotid system admitted within a few hours of onset when no ischemic change could be detected by the initial CT but was already present as confirmed by PCT parameters of either mean transit time (MTT), cerebral blood flow (CBF) or cerebral blood volume (CBV). Percutaneous transluminal revascularization was performed in all patients at the earliest possible opportunity. The CBF and CBV values were calculated in regions of interest (ROIs) selected in the ischemic lesion, and compared with the same location on the opposite side (ROI ratio). Patients with visual decreases in CBF and CBV as well as delay of MTT suffered severe infarction. Patients with only delay of MTT were saved from extensive infarction by the reperfusion treatment. Some patients with ischemia visually identified by both MTT and CBF suffered severe infarction, but others only had localized infarction. The ROI ratio of the CBV was increased in these patients with localized infarction but decreased in the patients with severe infarction. The mean ROI ratios associated with subsequent infarction were 0.438 ± 0.276 (mean ± SD) for CBF and 0.873 ± 0.290 for CBV, and those associated with no subsequent infarction were 0.862 ± 0.429 for CBF and 1.289 ± 0.486 for CBV. Delay of MTT indicates reconstruction whereas decreased CBV carries no indication. The decision-making is difficult in patients in whom visual evaluation cannot confirm decreased CBF. In such cases, the ROI ratio of CBV must be measured if any decrease in CBF is suspected.
Author	中島, 雅央池田, 尚人阿部, 琢己鈴木, 泰篤
Author_FL	NAKAJIMA Masateru SUZUKI Yasuhiro ABE Takumi IKEDA Hisato
Author_FL_xml	– sequence: 1 fullname: SUZUKI Yasuhiro – sequence: 2 fullname: NAKAJIMA Masateru – sequence: 3 fullname: IKEDA Hisato – sequence: 4 fullname: ABE Takumi
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References	1) Alex L: Cerebral blood flow determination by rapid-sequence computed tomography: a theoretical analysis. Radiology 137: 679-686, 1980 4) Leenders KL, Perani D, Lammertsma AA, et al: Cerebral blood flow, blood and oxygen utilization: normal values and effect of age. Brain 113: 27-47, 1990 11) Roberts HC: Multisection dynamic CT perfusion for acute cerebral ischemia: the “Toggling-table” technique. AJNR Am J Neuroradiol 22: 1007-1080, 2001 3) Koenig M, Kraus M, Theek C, et al: Quantitative assessment of the ischemic brain by means of perfusion-related parameters derived from perfusion CT. AJNR Am J Neuroradiol 22: 431-437, 2001 2) Hatazawa J, Shimosegawa E, Toyoshima H, et al: Cerebral blood volume in acute brain infarction: a combined study with dynamic susceptibility contrast MRI and 99mTc-HMPAO-SPECT. Stroke 30: 800-806, 1999 12) Wintermark M, Maeder P, Reichhart M, et al: Prognostic value of perfusion CT studies in the management of acute stroke patient: a comparison between admission perfusion CT and delayed MR imaging. Proceedings, American Society of Neuroradiology 39th Annual Meeting. Boston, 2001, p6 (abstract 5) Lev MM, Berzin TM, Koroshetz WJ, et al: CT perfusion imaging vs MR diffusion-weighted imaging: Acute stroke detection and prediction of final infarct size. Proceedings, American Society of Neuroradiology 39th Annual Meeting. Boston, 2001, p6 (abstract 7) Muizelaar JP, Fatouros PP, Schroeder ML: A new method for quantitative regional cerebral blood volume measurements using computed tomography. Stroke 28: 1998-2005, 1997 8) Powers WJ, Grubb RL, Darriet D, et al: Cerebral blood flow and cerebral metabolic rate of oxygen requirements for cerebral function and viability in humans. J Cereb Blood Flow Metab 5: 600-608, 1985 9) Powers WJ: Cerebral hemodynamics in ischemic cerebrovascular disease. Ann Neurol 29: 231-240, 1991 6) Mayer TM, Hamann GF, Baranczyk J, et al: Dynamic CT perfusion image of acute stroke. AJNR Am J Neuroradiol 21: 1441-1449, 2000 10) Roberts GW, Larson KB: The interpretation of mean transit time measurements for multi-phase tissue systems. J Theor Biol 39: 447-475, 1973
References_xml	– reference: 2) Hatazawa J, Shimosegawa E, Toyoshima H, et al: Cerebral blood volume in acute brain infarction: a combined study with dynamic susceptibility contrast MRI and 99mTc-HMPAO-SPECT. Stroke 30: 800-806, 1999 – reference: 6) Mayer TM, Hamann GF, Baranczyk J, et al: Dynamic CT perfusion image of acute stroke. AJNR Am J Neuroradiol 21: 1441-1449, 2000 – reference: 9) Powers WJ: Cerebral hemodynamics in ischemic cerebrovascular disease. Ann Neurol 29: 231-240, 1991 – reference: 7) Muizelaar JP, Fatouros PP, Schroeder ML: A new method for quantitative regional cerebral blood volume measurements using computed tomography. Stroke 28: 1998-2005, 1997 – reference: 3) Koenig M, Kraus M, Theek C, et al: Quantitative assessment of the ischemic brain by means of perfusion-related parameters derived from perfusion CT. AJNR Am J Neuroradiol 22: 431-437, 2001 – reference: 5) Lev MM, Berzin TM, Koroshetz WJ, et al: CT perfusion imaging vs MR diffusion-weighted imaging: Acute stroke detection and prediction of final infarct size. Proceedings, American Society of Neuroradiology 39th Annual Meeting. Boston, 2001, p6 (abstract) – reference: 1) Alex L: Cerebral blood flow determination by rapid-sequence computed tomography: a theoretical analysis. Radiology 137: 679-686, 1980 – reference: 12) Wintermark M, Maeder P, Reichhart M, et al: Prognostic value of perfusion CT studies in the management of acute stroke patient: a comparison between admission perfusion CT and delayed MR imaging. Proceedings, American Society of Neuroradiology 39th Annual Meeting. Boston, 2001, p6 (abstract) – reference: 8) Powers WJ, Grubb RL, Darriet D, et al: Cerebral blood flow and cerebral metabolic rate of oxygen requirements for cerebral function and viability in humans. J Cereb Blood Flow Metab 5: 600-608, 1985 – reference: 10) Roberts GW, Larson KB: The interpretation of mean transit time measurements for multi-phase tissue systems. J Theor Biol 39: 447-475, 1973 – reference: 11) Roberts HC: Multisection dynamic CT perfusion for acute cerebral ischemia: the “Toggling-table” technique. AJNR Am J Neuroradiol 22: 1007-1080, 2001 – reference: 4) Leenders KL, Perani D, Lammertsma AA, et al: Cerebral blood flow, blood and oxygen utilization: normal values and effect of age. Brain 113: 27-47, 1990
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SubjectTerms	infarction perfusion CT stroke thrombolysis
Title	Perfusion CTによる超急性期脳虚血の血行再建術適応基準について
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