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中华脑血管病杂志(电子版)

中华脑血管病杂志(电子版) ›› 2020, Vol. 14 ›› Issue (03) : 151 -154. doi: 10.11817/j.issn.1673-9248.2020.03.006

所属专题: 文献

论著

动脉自旋标记在急性缺血性脑卒中中的临床应用
颜楚明1, 马青峰2,()   
  1. 1. 100053 北京,首都医科大学宣武医院神经内科
    2. 100053 北京,首都医科大学宣武医院神经内科,100053 北京,首都医科大学宣武医院急诊科
  • 收稿日期:2020-04-24 出版日期:2020-06-01
  • 通信作者: 马青峰
  • 基金资助:
    国家重点研发计划 无创性脑血流灌注功能定量评估系统在急性卒中“绿色通道”中的应用价值研究(2019YFC0120904)

Clinical application of arterial spin labeling in acute ischemic stroke

Chuming Yan1, Qingfeng Ma2,()   

  1. 1. Department of Neurology, Xuanwu Hospital Capital Medical University, Beijing 100053, China
    2. Department of Neurology, Xuanwu Hospital Capital Medical University, Beijing 100053, China, Department of Emergency, Xuanwu Hospital Capital Medical University, Beijing 100053, China
  • Received:2020-04-24 Published:2020-06-01
  • Corresponding author: Qingfeng Ma
  • About author:
    Corresponding author: Ma Qingfeng, Email:
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引用本文:

颜楚明, 马青峰. 动脉自旋标记在急性缺血性脑卒中中的临床应用[J]. 中华脑血管病杂志(电子版), 2020, 14(03): 151-154.

Chuming Yan, Qingfeng Ma. Clinical application of arterial spin labeling in acute ischemic stroke[J]. Chinese Journal of Cerebrovascular Diseases(Electronic Edition), 2020, 14(03): 151-154.

动脉自旋标记(ASL)是一种无创的、不使用造影剂的脑灌注成像技术。通过对缺血半暗带、侧支循环等不同影像学表现的研究,广泛应用于缺血性脑卒中的诊断及预后估计。多延迟ASL在原有技术的基础上进行了改进,使得该技术在脑血管病中得到更加广泛的应用。本文综述了ASL对于急性缺血性脑卒中的诊断价值及临床应用,并着重介绍了多延迟ASL这一新技术。

关键词: 卒中, 动脉自旋标记, 磁共振成像

Arterial Spin Labeling (ASL) is a noninvasive imaging technique without contrast agents. Through different imaging features such as ischemic penumbra and collateral flow, ASL can help to recognize ischemic stroke and predict prognosis. Multi-delay ASL is improved on the basis of the original technique, which makes it more widely used in cerebrovascular diseases. This article reviewed the value of ASL and its clinical application in the diagnosis of acute ischemic stroke, in which the multi-delay ASL is mainly introduced.

Key words: Stroke, Arterial spin labeling, Magnetic resonance imaging
1
GBD 2016 Stroke Collaborators. Global, regional, and national burden of stroke, 1990-2016: a systematic analysis for the Global Burden of Disease Study 2016 [J]. Lancet Neurol, 2019, 18(05): 439-458.
2
Nogueira RG, Jadhav AP, Haussen DC, et al. Thrombectomy 6 to 24 Hours after Stroke with a Mismatch between Deficit and Infarct [J]. N Engl J Med, 2018, 378(01): 11-21.
3
Albers GW, Marks MP, Kemp S, et al. Thrombectomy for Stroke at 6 to 16 Hours with Selection by Perfusion Imaging [J]. N Engl J Med, 2018, 378(08): 708-718.
4
Detre JA, Leigh JS, Williams DS, et al. Perfusion imaging [J]. Magn Reson Med, 1992, 23(01): 37-45.
5
Bokkers RP, Bremmer JP, van Berckel BN, et al. Arterial spin labeling perfusion MRI at multiple delay times: a correlative study with H(2)(15)O positron emission tomography in patients with symptomatic carotid artery occlusion [J]. J Cereb Blood Flow Metab, 2010, 30(01): 222-229.
6
Wang DJ, Alger JR, Qiao JX, et al. The value of arterial spin-labeled perfusion imaging in acute ischemic stroke: comparison with dynamic susceptibility contrast-enhanced MRI [J]. Stroke, 2012, 43(04): 1018-1024.
7
Bivard A, Krishnamurthy V, Stanwell P, et al. Arterial spin labeling versus bolus-tracking perfusion in hyperacute stroke [J]. Stroke, 2014, 45(01): 127-133.
8
Alsop DC, Detre JA, Golay X, et al. Recommended implementation of arterial spin-labeled perfusion MRI for clinical applications: A consensus of the ISMRM perfusion study group and the European consortium for ASL in dementia [J]. Magn Reson Med, 2015, 73(01): 102-116.
9
Dai W, Fong T, Jones RN, et al. Effects of arterial transit delay on cerebral blood flow quantification using arterial spin labeling in an elderly cohort [J]. J Magn Reson Imaging, 2017, 45(02): 472-481.
10
Bokkers RP, Hernandez DA, Merino JG, et al. Whole-brain arterial spin labeling perfusion MRI in patients with acute stroke [J]. Stroke, 2012, 43(05): 1290-1294.
11
Buxton RB, Frank LR, Wong EC, et al. A general kinetic model for quantitative perfusion imaging with arterial spin labeling [J]. Magn Reson Med, 1998, 40(03): 383-396.
12
Petersen ET, Mouridsen K, Golay X. The QUASAR reproducibility study, Part II: Results from a multi-center Arterial Spin Labeling test-retest study [J]. NeuroImage, 2010, 49(01): 104-113.
13
Wang DJ, Alger JR, Qiao JX, et al. Multi-delay multi-parametric arterial spin-labeled perfusion MRI in acute ischemic stroke-Comparison with dynamic susceptibility contrast enhanced perfusion imaging [J]. Neuroimage Clin, 2013, 03(01): 1-7.
14
Nael K, Meshksar A, Liebeskind DS, et al. Quantitative analysis of hypoperfusion in acute stroke: arterial spin labeling versus dynamic susceptibility contrast [J]. Stroke, 2013, 44(11): 3090-3096.
15
Huang YC, Liu HL, Lee JD, et al. Comparison of arterial spin labeling and dynamic susceptibility contrast perfusion MRI in patients with acute stroke [J]. PloS One, 2013, 08(07): e69085.
16
Zaharchuk G, El Mogy IS, Fischbein NJ, et al. Comparison of arterial spin labeling and bolus perfusion-weighted imaging for detecting mismatch in acute stroke [J]. Stroke, 2012, 43(07): 1843-1848.
17
Nam KW, Kim CK, Ko SB, et al. Regional Arterial Spin Labeling Perfusion Defect Is Associated With Early Ischemic Recurrence in Patients With a Transient Ischemic Attack [J]. Stroke, 2020, 51(01): 186-192.
18
Niibo T, Ohta H, Yonenaga K, et al. Arterial spin-labeled perfusion imaging to predict mismatch in acute ischemic stroke [J]. Stroke, 2013, 44(09): 2601-2603.
19
Song K, Guan M, Li W, et al. Acute ischemic stroke patients with diffusion-weighted imaging-Alberta Stroke Program Early Computed Tomography Score </= 5 can benefit from endovascular treatment: a single-center experience and literature review [J]. Neuroradiology, 2019, 61(04): 451-459.
20
Puhr-Westerheide D, Tiedt S, Rotkopf LT, et al. Clinical and Imaging Parameters Associated With Hyperacute Infarction Growth in Large Vessel Occlusion Stroke [J]. Stroke, 2019, 50(10): 2799-2804.
21
Morofuji Y, Horie N, Tateishi Y, et al. Arterial Spin Labeling Magnetic Resonance Imaging Can Identify the Occlusion Site and Collateral Perfusion in Patients with Acute Ischemic Stroke: Comparison with Digital Subtraction Angiography [J]. Cerebrovasc Dis, 2019, 48(NaN): 70-76.
22
Niibo T, Ohta H, Miyata S, et al. Prediction of Blood-Brain Barrier Disruption and Intracerebral Hemorrhagic Infarction Using Arterial Spin-Labeling Magnetic Resonance Imaging [J]. Stroke, 2017, 48(01): 117-122.
23
Sobesky J, Thiel A, Ghaemi M, et al. Crossed cerebellar diaschisis in acute human stroke: a PET study of serial changes and response to supratentorial reperfusion [J]. J Cereb Blood Flow Metab, 2005, 25(12): 1685-1691.
24
Takasawa M, Watanabe M, Yamamoto S, et al. Prognostic value of subacute crossed cerebellar diaschisis: single-photon emission CT study in patients with middle cerebral artery territory infarct [J]. AJNR Am J Neuroradiol, 2002, 23(02): 189-193.
25
Strother MK, Buckingham C, Faraco CC, et al. Crossed cerebellar diaschisis after stroke identified noninvasively with cerebral blood flow-weighted arterial spin labeling MRI [J]. Eur J Radiol, 2016, 85(01): 136-142.
26
Shinohara Y, Kato A, Kuya K, et al. Perfusion MR Imaging Using a 3D Pulsed Continuous Arterial Spin-Labeling Method for Acute Cerebral Infarction Classified as Branch Atheromatous Disease Involving the Lenticulostriate Artery Territory [J]. AJNR Am J Neuroradiol, 2017, 38(08): 1550-1554.
27
Kang KM, Sohn CH, Choi SH, et al. Detection of crossed cerebellar diaschisis in hyperacute ischemic stroke using arterial spin-labeled MR imaging [J]. PloS One, 2017, 12(03): e0173971.
28
Berkhemer OA, Jansen IG, Beumer D, et al. Collateral Status on Baseline Computed Tomographic Angiography and Intra-Arterial Treatment Effect in Patients With Proximal Anterior Circulation Stroke [J]. Stroke, 2016, 47(03): 768-776.
29
Broocks G, Kemmling A, Meyer L, et al. Computed Tomography Angiography Collateral Profile Is Directly Linked to Early Edema Progression Rate in Acute Ischemic Stroke [J]. Stroke, 2019, 50(12): 3424-3430.
30
Flores A, Rubiera M, Ribo M, et al. Poor Collateral Circulation Assessed by Multiphase Computed Tomographic Angiography Predicts Malignant Middle Cerebral Artery Evolution After Reperfusion Therapies [J]. Stroke, 2015, 46(11): 3149-3153.
31
Deibler AR, Pollock JM, Kraft RA, et al. Arterial spin-labeling in routine clinical practice, part 3: hyperperfusion patterns [J]. AJNR Am J Neuroradiol, 2008, 29(08): 1428-1435.
32
Zaharchuk G, Do HM, Marks MP, et al. Arterial spin-labeling MRI can identify the presence and intensity of collateral perfusion in patients with moyamoya disease [J]. Stroke, 2011, 42(09): 2485-2491.
33
Crisi G, Filice S, Scoditti U. Arterial Spin Labeling MRI to Measure Cerebral Blood Flow in Untreated Ischemic Stroke [J]. J Neuroimaging, 2019, 29(02): 193-197.
34
Nael K, Meshksar A, Liebeskind DS, et al. Periprocedural arterial spin labeling and dynamic susceptibility contrast perfusion in detection of cerebral blood flow in patients with acute ischemic syndrome [J]. Stroke, 2013, 44(03): 664-670.
35
Thamm T, Guo J, Rosenberg J, et al. Contralateral Hemispheric Cerebral Blood Flow Measured With Arterial Spin Labeling Can Predict Outcome in Acute Stroke [J]. Stroke, 2019, 50(12): 3408-3415.
36
Lee S, Park DW, Kim TY, et al. A novel visual ranking system based on arterial spin labeling perfusion imaging for evaluating perfusion disturbance in patients with ischemic stroke [J]. PloS One, 2020, 15(01): e0227747.
37
Yu S, Ma SJ, Liebeskind DS, et al. ASPECTS-based reperfusion status on arterial spin labeling is associated with clinical outcome in acute ischemic stroke patients [J]. J Cereb Blood Flow Metab, 2018, 38(03): 382-392.
38
Wang K, Shou Q, Ma SJ, et al. Deep Learning Detection of Penumbral Tissue on Arterial Spin Labeling in Stroke [J]. Stroke, 2019, 51(02):489-497.
39
Kanazawa Y, Arakawa S, Shimogawa T, et al. Arterial Spin Labeling Magnetic Resonance Imaging for Differentiating Acute Ischemic Stroke from Epileptic Disorders [J]. J Stroke Cerebrovasc Diseases, 2019, 28(06): 1684-1690.
40
Tian B, Liu Q, Wang X, et al. Chronic intracranial artery stenosis: Comparison of whole-brain arterial spin labeling with CT perfusion [J]. Clin Imaging, 2018, 52: 252-259.
41
Lou X, Yu S, Scalzo F, et al. Multi-delay ASL can identify leptomeningeal collateral perfusion in endovascular therapy of ischemic stroke [J]. Oncotarget, 2017, 08(02): 2437-2443.
42
Lyu J, Ma N, Liebeskind DS, et al. Arterial Spin Labeling Magnetic Resonance Imaging Estimation of Antegrade and Collateral Flow in Unilateral Middle Cerebral Artery Stenosis [J]. Stroke, 2016, 47(02): 428-433.
43
Okell TW, Harston GWJ, Chappell MA, et al. Measurement of collateral perfusion in acute stroke: a vessel-encoded arterial spin labeling study [J]. Sci Rep, 2019, 09(01): 8181.
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