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Research ArticleNeurointervention

Anterior Circulation Acute Ischemic Stroke Associated with Atherosclerotic Lesions of the Cervical ICA: A Nosologic Entity Apart

O.F. Eker, P. Panni, C. Darganzali, G. Marnat, C. Arquizan, P. Machi, I. Mourand, G. Gascou, E. Le Bars, V. Costalat and A. Bonafé
American Journal of Neuroradiology October 2017, DOI: https://doi.org/10.3174/ajnr.A5404

Article Figures & Data

Figures

  • Fig 1.
    Fig 1.

    Algorithm of endovascular therapeutic strategies for tandem occlusions. The absence (n = 0) or presence (n = 1) condition the proximal treatment or not. The algorithm of the therapeutic decisions describes 2 strategies consisting of the treatment of, first, the proximal lesion (proximal occlusion strategy [POF]) or, first, the distal occlusion (distal occlusion first strategy [DOF]). The decision between the POF or DOF strategies is based on the following considerations raised during the endovascular procedure: 1) the ease of crossing the proximal occlusion site (easy crossing? difficult or impossible crossing?); 2) the patency and efficiency of the circle of Willis (efficient CoW or absence of CoW?); and 3) how threatening is the proximal atherosclerotic lesion? (unstable ulcerated plaque? moderate regular plaque?). In thrombus on ulcerated plaque, usually a single thromboaspiration allows easily crossing the proximal occlusion site and treating the distal (ie, intracranial) occlusion. In case of POF (a), the antiplatelet regimen consisted of the periprocedural intravenous administration of a unique loading dose of aspirin (250 mg) until the first imaging follow-up at 24 hours postoperatively. After ruling out any hemorrhagic transformation at 24 hours, a daily dual-antiplatelet therapy (160 mg of aspirin + 75 mg of clopidogrel) was instituted. In case of DOF (b), no anticoagulation or antiplatelet therapies were administered until the first imaging follow-up at 24 hours postoperatively. After we ruled out any hemorrhagic transformation at 24 hours, a daily monoantiplatelet therapy (160 mg of aspirin) was instituted. CoW indicates circle of Willis (efficient = 1; nonefficient or absent = 0); Prox. THREAT indicates any threatening of the proximal lesion (either atherosclerotic or dissecting).

  • Fig 2.
    Fig 2.

    Baseline MR imaging. A 69-year-old patient was admitted for a left middle cerebral artery ischemic stroke, with an NIHSS score of 18 at 3 hours after symptom onset. The DWI and ADC maps (A and B, red asterisk) showed a limited infarct core of the lenticular nucleus, negative findings on FLAIR, and a clot in the M1 segment of the artery with susceptibility artifacts on the T2 echo gradient (D, yellow arrow) acquisition. Some evidence of slow flow was also visible on FLAIR as sulcal hypersignals (C, red arrows).

  • Fig 3.
    Fig 3.

    DSA of intracranial reperfusion. The same patient as in Fig 2 underwent mechanical thrombectomy following a distal occlusion first recanalization strategy. The figure shows the angiogram of the intracranial vasculature of left internal carotid artery before and after MT with a stent retriever. Before MT (A and B), the angiogram shows the occlusion of left middle cerebral artery (segment M1) with a TICI score of 0 and a poor pial collaterality from the anterior cerebral artery. MT allowed complete reperfusion of the MCA territory with a TICI score of 3 (C and D) without any distal emboli.

  • Fig 4.
    Fig 4.

    DSA of proximal carotid treatment. After full reperfusion of the intracranial occluded vessel, the patient underwent a stent placement and angioplasty of the extracranial carotid artery. The DSA shows an ulcerated atherosclerotic plaque of the carotid bulb before the treatment (A). After the angioplasty (B), a full recanalization of the vessel was achieved (C).

Tables

  • Table 1:

    Univariate analysis in the atherothrombotic tandem occlusion group

    mRS 0–2 (n = 27) No. (%) or (Mean)mRS >2 (n = 38) No. (%) or (Mean)P Value
    Age (yr)27 (64.6 ± 8.1)38 (69.2 ± 10.6).04
    Men27 (0.9 ± 0.3)38 (0.9 ± 0.3).47
    Hypertension21 (77.8)27 (71.1).58
    Cigarette smoking11 (40.7)21 (55.3).32
    Dyslipidemia19 (70.4)19 (50).13
    Diabetes11 (40.7)14 (36.8).80
    Other cardiovascular risk factors2 (7.4)9 (23.7).11
    Left side13 (48.1)27 (71.1).08
    Distal ICA occlusion8 (29.6)22 (57.9).04
    Baseline NIHSS score27 (14.9 ± 6.3)38 (18.9 ± 5.2).005
    Baseline DWI–ASPECTS27 (7.1 ± 1.7)37 (6.7 ± 1.5).22
    IV rtPA16 (59.3)24 (63.2).80
    Onset-reperfusion time (min)24 (377 ± 147.3)32 (390.4 ± 173.4).93
    Procedural time (min)25 (76.6 ± 39.1)33 (85.8 ± 48.5).49
    Number of stent retriever passes27 (1.9 ± 0.9)37 (2.5 ± 1.2).03
    Acute stenting10 (37)15 (39.5)1
    Procedural complications5 (18.5)17 (44.7).04
    Ischemic extension2 (7.4)19 (50)<.001
    Hemorrhagic transformation8 (29.6)23 (60.5).02
        Subarachnoid hemorrhage1 (3.7)4 (10.5).39
        H-13 (11.1)3 (7.9).69
        H-24 (14.8)7 (18.4).75
        PH-10 (0)3 (7.9).26
        PH-20 (0)7 (18.4).04
        sICH0 (0)10 (26.3).004
    TICI 2b/325 (92.6)16 (42.1)<.001
  • Table 2:

    Multivariate analysis of good clinical outcome predictors

    Groups, VariablesOdds Ratio95% Lower CI95% Upper CIP Value
    ATO
        Age0.930.851.00.07
        Baseline NIHSS score0.890.791.00.06
        Intracranial ICA occlusion0.390.091.63.20
        Periprocedural complications0.150.030.74.02
        TICI 2b/317.762.90108.81.002
    IICOa
        Age0.950.930.98<.001
        Baseline NIHSS score0.910.850.97.004
        Intracranial ICA occlusion1.330.632.83.45
        Periprocedural complications1.360.503.70.55
        TICI 2b/33.571.488.61.005

    • Note:—ATO indicates atherothrombotic tandem occlusion; IICO, isolated intracranial occlusion.

    • a Previously published.19

  • Table 3:

    Summary of previously published tandem occlusion series

    Authors, Year PublishedPatients (No.)% of TO EtiologiesaTICI 2b/3 or TIMI 2–3mRS ≤2mRS 6sICHPeriprocedural Complications
    Malik et al, 20112177100/0/0/058.0 (75.3)b32.0 (41.6)18.0 (23.4)8.0 (10.4)NA
    Kwak et al, 2013235100/0/0/026.0 (74.3)22.0 (62.9)4.0 (11.4)1.0 (2.9)0.0 (0.0)
    Stampfl et al, 20142324100/0/0/015.0 (62.5)7.0 (29.2)4.0 (16.7)4.0 (16.7)1.0 (4.2)
    Maurer et al, 2015244377/7/0/633.0 (76.7)14.0 (32.6)9.0 (20.9)5.0 (11.6)1.0 (2.3)
    Cohen et al, 20152524100/0/0/019.0 (79.2)13.0 (54.2)2.0 (8.3)0.0 (0.0)0.0 (0.0)
    Lockau et al, 201573765/35/0/027.0 (73.0)17.0 (45.9)7.0 (18.9)4.0 (10.8)8.0 (21.6)
    Spiotta et al, 20152616100/0/0/016.0 (100.0)8.0 (50.0)3.0 (18.8)2.0 (12.5)0.0 (0.0)
    Lescher et al, 2015133928/18/54/025.0 (64.1)14.0 (35.9)4.0 (10.3)4.0 (10.3)0.0 (0.0)
    Behme et al, 201527170100/0/0/0130.0 (76.5)62.0 (36.5)32.0 (18.8)15.0 (8.8)NA
    Grigoryan et al, 20161510089/11/0/088.0 (88.0)42.0 (42.0)20.0 (20.0)NANA
    Fahed et al, 2016147054/19/19/847.0 (67.1)33.0 (47.1)9.0 (13.4)NA12.0 (17.1)
    This series8677/23/0/056.0 (65.1)41.0 (48.2)17.0 (20.0)11.0 (12.8)24.0 (27.9)
    Atherothrombotic TOs6642.0 (63.6)27.0 (41.5)15.0 (23.1)10.0 (15.2)22.0 (33.3)
    Dissecting TOs192014.0 (70.0)14.0 (70.0)2.0 (10.0)1.0 (5.0)2.0 (10.0)

    • Note:—NA indicates non-available data; TIMI, Thrombolysis in Myocardial Infarction.

    • a Distribution of the TO etiologies in percentages: atheromatous/dissection/cardioembolic/other causes.

    • b Recanalization assessed with the TIMI score.

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Anterior Circulation Acute Ischemic Stroke Associated with Atherosclerotic Lesions of the Cervical ICA: A Nosologic Entity Apart
O.F. Eker, P. Panni, C. Darganzali, G. Marnat, C. Arquizan, P. Machi, I. Mourand, G. Gascou, E. Le Bars, V. Costalat, A. Bonafé
American Journal of Neuroradiology Oct 2017, DOI: 10.3174/ajnr.A5404
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