脳神経外科速報 2022年増刊号 血栓回収療法リニューアル

出版社: メディカ出版
発行日: 2022-10-01
分野: 臨床医学:外科  >  雑誌
ISSN: 09171495
雑誌名:
特集: 血栓回収療法リニューアル
電子書籍版: 2022-10-01 (電子書籍版)
書籍・雑誌
≪全国送料無料でお届け≫
取寄せ目安:8~14営業日

8,800 円(税込)

購入する
電子書籍
章別単位での購入はできません
ブラウザ、アプリ閲覧

8,800 円(税込)

購入する

目次

  • 【第1章 適応の再考・新常識】
    A 適応のまとめと今後期待される適応拡大
    B 病院前閉塞予測スケール
    C 受け入れの院内体制整備
    D 血栓回収療法前のrt-PA静注療法

    【第2章 画像の再考・新常識】
    A 新時代に行うべき急性期脳梗塞画像戦略
    B 非塞栓性脳主幹動脈閉塞の画像診断
    C DWI/FLAIR mismatch
    D 有効な再灌流の判断
    E 血栓回収療法と放射線防護
    〈Column1〉大動脈弓の画像 ~単純CTで3D画像を作成する~

    【第3章 都心部と地域での医療体制の違い】
    A 都心部での体制
    B 都心郊外での体制
    C ドクターヘリの活躍する地域での体制 ~高知県の場合~
    D 離島での体制 ~離島発症のLVO症例に対する血栓回収療法~
    E 寒冷地域での体制
    〈Column2〉遠隔手術支援システムの活用

    【第4章 社会情勢の変化と血栓回収療法】
    A COVID-19と血栓回収療法
    B 血栓回収療法と働き方改革
    C 血栓回収療法におけるダイバーシティ
    D 血栓回収療法と脳梗塞診療の地域格差 ~地方自治体の脳卒中悉皆調査より~

    【第5章 デバイスの再考・新常識】
    A ステントリトリーバーの再考・新常識
    1 Solitaire X
    2 Trevo
    3 EmboTrap
    4 Tron
    B 吸引カテーテルの再考・新常識
    1 Penumbraシステム
    2 SOFIAFLOW
    3 AXS Catalyst
    4 REACT
    5 EmboVac
    6 SALVA
    〈Column3〉AXS Offset
    C 複合使用時の再考・新常識

    【第6章 臨床現場で遭遇する,迷うsituationでどうするか】
    一筋縄ではいかなかった症例
    1 rt-PA投与後の心破裂
    2 正常血管変異を有する主幹動脈閉塞に対する血栓回収療法
    3 アクセス困難例
    4 SVS(-)/HMCAS(-)の“硬いと予想される血栓”
    5 内頚動脈急性閉塞に引き続き
    大型free-floating thrombusが合併した1例
    6 Medium vessel occlusionに対する血栓回収療法

この書籍の参考文献

参考文献のリンクは、リンク先の都合等により正しく表示されない場合がありますので、あらかじめご了承下さい。

本参考文献は電子書籍掲載内容を元にしております。

第1章 適応の再考・新常識

P.18 掲載の参考文献
1) Goyal M, et al : Endovascular thrombectomy after large-vessel ischaemic stroke : a meta-analysis of individual patient data from five randomised trials. Lancet 387 : 1723-31, 2016
PubMed
2) Albers GW, et al : Thrombectomy for stroke at 6 to 16 hours with selection by perfusion imaging. N Engl J Med 378 : 708-18, 2018
PubMed
3) Nogueira RG, et al : Thrombectomy 6 to 24 hours after stroke with a mismatch between deficit and infarct. N Engl J Med 378 : 11-21, 2018
PubMed
4) Roman LS, et al : Imaging features and safety and efficacy of endovascular stroke treatment : a meta-analysis of individual patient-level data. Lancet Neurol 17 : 895-904, 2018
PubMed
5) Yoshimura S, et al : Endovascular therapy for acute stroke with a large ischemic region. N Engl J Med 386 : 1303-13, 2022
PubMed
6) 日本脳卒中学会脳卒中ガイドライン委員会 : 脳卒中治療ガイドライン 2021. 協和企画, 東京, 2021
 
7) Ng FC, et al : Cerebral edema in patients with large hemispheric infarct undergoing reperfusion treatment : A HERMES meta-analysis. Stroke 52 : 3450-8, 2021
PubMed
8) Yoshimoto T, et al : Identifying large ischemic core volume ranges in acute strokethat can benefit from mechanical thrombectomy. J Neurointerv Surg 13 : 1081-7, 2021
 
9) Goyal M, et al : MeVO : the next frontier? J Neurointerv Surg 12 : 545-7, 2020
 
10) Ospel JM, et al : A review of endovascular treatment for medium vessel occlusion stroke. J Neurointerv Surg 13 : 623-30, 2021
PubMed
11) Menon BK, et al : Efficacy of endovascular thrombectomy in patients with M2 segment middle cerebral artery occlusions : meta-analysis of data from the HERMES Collaboration. J Neurointerv Surg 11 : 1065-9, 2019
PubMed
12) Compagne KCJ, et al : Endovascular treatment : the role of dominant caliber M2 segment occlusion in ischemic stroke. Stroke 50 : 419-27, 2019
PubMed
13) Meyer L, et al : Thrombectomy for primary distal posterior cerebral artery occlusion stroke : the TOPMOST study. JAMA Neurol 78 : 434-44, 2021
PubMed
14) Sand KM, et al : Vision problems in ischaemic stroke patients : effects on life quality and disability. Eur J Neurol 23 Suppl 1 : 1-7, 2016
 
15) Strambo D, et al : Thrombectomy and thrombolysis of isolated posterior cerebral artery occlusion. Cognitive, visual, and disability outcomes. Stroke 51 : 254-61, 2020
PubMed
16) Pfaff J, et al : Mechanical thrombectomy of distal occlusions in the anterior cerebral artery : recanalization rates, periproce-dural complications, and clinical outcome. AJNR Am J Neuroradiol 37 : 673-8, 2016
 
17) Kashani N, et al : Endovascular device choice and tools for recanalization of medium vessel occlusions : insights from the MeVO FRONTIERS international survey. Front Neurol 12 : 735899, 2021
PubMed
18) Perez-Garcia C, et al : Mechanical thrombectomy in medium vessel occlusions : blind exchange with mini-pinning technique versus mini stent retriever alone. Stroke 51 : 3224-31, 2020
PubMed
19) Yoshimoto T, et al : Blind exchange with mini-pinning technique using the tron stent retriever for middle cerebral artery M2 occlusion thrombectomy in acute ischemic stroke. Front neurol. 12 : 667835, 2021
PubMed
20) Larsson A, et al : Do patients with large vessel occlusion ischemic stroke harboring prestroke disability benefit from thrombectomy? J Neurol 267 : 2667-74, 2020
PubMed
21) Salwi S, et al : Mechanical thrombectomy in patients with ischemic stroke with prestroke disability. Stroke 51 : 1539-45, 2020
PubMed
22) Goldhoorn RB, et al : Safety and outcome of endovascular treatment in prestroke-dependent patients. Stroke 49 : 2406-14, 2018
PubMed
23) Tanaka K, et al : Endovascular therapy for acute ischemic stroke in patients with prestroke disability. J Am Heart Assoc 10 : e020783, 2021
PubMed
24) Nguyen TN, et al : Noncontrast computed tomography vs computed tomography perfusion or magnetic resonance imaging selection in late presentation of stroke with large-vessel occlusion. JAMA Neurol 79 : 22-31, 2022
 
25) Mokin M, et al : Indications for thrombectomy in acute ischemic stroke from emergent large vessel occlusion (ELVO) : report of the SNIS Standards and Guidelines Committee. J Neurointerv Surg 11 : 215-20, 2019
 
26) Rajajee V, et al : Early MRI and outcomes of untreated patients with mild or improving ischemic stroke. Neurology 67 : 980-4, 2006
PubMed
27) Kim JT, et al : Proximal arterial occlusion in acute ischemic stroke with low NIHSS scores should not be considered as mild stroke. PLoS One 8 : e70996, 2013
 
28) Saleem Y, et al : Acute neurological deterioration in large vessel occlusions and mild symptoms managed Medically. Stroke 51 : 1428-34, 2020
PubMed
29) 高下 純平 : 軽症脳梗塞の再開通療法. 臨床神経 59 : 84-92, 2019
 
30) Saito T, et al : Clinical outcome of patients with large vessel occlusion and low National Institutes of Health Stroke Scale scores : subanalysis of the RESCUE-Japan Registry 2. Stroke 51 : 1458-63, 2020
PubMed
31) Goyal N, et al : Medical management vs mechanical thrombectomy for mild strokes : an international multicenter study and systematic review and meta-analysis. JAMA Neurol 77 : 16-24, 2019
 
32) Levine SR, et al : Review, historical context, and clarifications of the NINDS rt-PA stroke trials exclusion criteria : Part 1 : rapidly improving stroke symptoms. Stroke 44 : 2500-5, 2013
PubMed
P.23 掲載の参考文献
1) McTaggart RA, et al : Initial hospital management of patients with emergent large vessel occlusion (ELVO) : report of the standards and guidelines committee of the Society of NeuroInterventional Surgery. J Neurointerv Surg 9 : 316-23, 2017
 
2) 日本循環器学会 : 脳卒中と循環器病克服5カ年計画 : ストップCVD (脳心血管病) 健康長寿を達成するために! (最終閲覧 2022年5月), https://www.j-circ.or.jp/five_year
 
3) Adeoye O, et al : Recommendations for the establishment of stroke systems of care : a 2019 update. Stroke 50 : e187-210, 2019
 
4) Suzuki K, et al : Emergent large vessel occlusion screen is an ideal prehospital scale to avoid missing endovascular therapy in acute stroke. Stroke 49 : 2096-101, 2018
PubMed
5) Ohta T, et al : Optimizing in-hospital triage for large vessel occlusion using a novel clinical scale (GAI2AA). Neurology 93 : e1997-e2006, 2019
PubMed
6) Okuno Y, et al : Field assessment of critical stroke by emergency services for acute delivery to a Comprehensive Stroke Center : FACE2AD. Transl Stroke Res 11 : 664-70, 2020
PubMed
7) Uchia K, et al : Simplified prehospital prediction rule to estimate the likelihood of 4 types of stroke : the 7-item Japan Urgent Stroke Triage (JUST-7) score. Prehosp Emerg Care 25 : 465-74, 2021
 
8) 福田真紀ほか : 血行再建開始を早めるための病院前および院内協力の重要性. Neurosurg Emerg 25 : 238-44, 2020
 
9) 望月悠一ほか : 熱海伊東医療圏におけるLVO予測 prehospital scale (FACE2AD) を用いたstroke bypass型機械的血栓回収体制の有効性. 脳卒中43 : 214-20, 2021
 
10) Uchida K, et al : Clinical prediction rules to classify types of stroke at prehospital stage. Stroke 49 : 1820-7, 2018
PubMed
11) Araki H, et al : Effect of region-wide use of prehospital stroke triage scale on management of patients with acute stroke. J NeuroIntervent Surg : doi : 10.1136/neurintsurg-2021-017863
 
12) Uchida K, et al : Development of Machine Learning Models to Predict Probabilities and Types of Stroke at Prehospital Stage : the Japan Urgent Stroke Triage Score Using Machine Learning (JUST-ML). Transl Stroke Res 13 : 370-81, 2022
PubMed
P.29 掲載の参考文献
1) Lees KR, et al : Time to treatment with intravenous alteplase and outcome in stroke : an updated pooled analysis of ECASS, ATLANTIS, NINDS, and EPITHET trials. Lancet 375 : 1695-703, 2010
PubMed
2) Mazighi M, et al : Impact of onset-to-reperfusion time on stroke mortality : a collaborative pooled analysis. Circulation 127 : 1980-5, 2013
PubMed
3) 日本脳卒中学会/脳卒中ガイドライン委員会編 : 脳卒中治療ガイドライン 2021, 協和企画, 東京, 2021
 
4) McTaggart RA, et al : Standards and Guidelines Committee of the Society of NeuroInterventional Surgery (SNIS). Initial hospital management of patients with emergent large vessel occlusion (ELVO) : report of the standards and guidelines committee of the Society of NeuroInterventional Surgery. J Neurointerv Surg 9 : 316-23, 2017
 
5) Heo JH, et al : A computerized in-hospital alert system for thrombolysis in acute stroke. Stroke 41 : 1978-83, 2010
PubMed
6) Ford AL, et al : Reducing door-to-needle times using Toyata's learn manufacturing principles and value stream analysis. Stroke 43 : 3395-8, 2012
 
7) Mehta BP, et al : Reducing door-to-puncture times for intra-arterial stroke therapy : a pilot quality improvement project. J Am Heart Assoc 3 : e000963, 2014
PubMed
8) 井口保之ほか : 時間を超える, 超急性期脳梗塞治療. 神経治療 35 : 518-21, 2018
 
9) 小山裕司ほか : 急性期脳梗塞治療支援システムの取り組み. 情報処理 57 : 1390-8, 2016
 
10) Matsumoto S, et al : A visual task management application for acute ischemic stroke care. Front Neurol 10 : 1118, 2019
PubMed
11) Fonarow GC, et al : Improving door-to-needle times in acute ischemic stroke : the design and rationale for the American Heart Association/American Stroke Association's Target : Stroke initiative. Stroke 42 : 2983-9, 2011
PubMed
P.33 掲載の参考文献
1) Thomalla G, et al : MRI-guided thrombolysis for stroke with unknown time of onset. N Engl J Med 379 : 611-22, 2018
PubMed
2) Kimura K, et al : Early recanalization rate of major occluded brain arteries after intravenous tissue plasminogen activator therapy using serial magnetic resonance angiography studies. Eur Neurol 62 : 287-92, 2009
PubMed
3) Hacke W, et al : Association of outcome with early stroke treatment : pooled analysis of ATLANTIS, ECASS, and NINDS rt-PA stroke trials. Lancet 363 : 768-74, 2004
PubMed
4) Seners P, et al : Post-thrombolysis recanalization in stroke referrals for thrombectomy : incidence, predictors, and prediction scores. Stroke 49 : 2975-82, 2018
PubMed
5) Berkhemer OA, et al : A randomized trial of intraarterial treatment for acute ischemic stroke. N Engl J Med 372 : 11-20, 2015
PubMed
6) Goyal M, et al : Endovascular thrombectomy after large-vessel ischaemic stroke : a meta-analysis of individual patient data from five randomised trials. Lancet 387 : 1723-31, 2016
PubMed
7) Yang P, et al : Endovascular thrombectomy with or without intravenous alteplase in acute stroke. N Engl J Med 382 : 1981-93, 2020
 
8) Zi W, et al : Effect of endovascular treatment alone vs intravenous alteplase plus endovascular treatment on functional independence in patients with acute ischemic stroke : The DEVT randomized clinical trial. JAMA 325 : 234-43, 2021
PubMed
9) LeCouffe NE, et al : A randomized trial of intravenous alteplase before endovascular treatment for stroke. N Engl J Med 385 : 1833-44, 2021
PubMed

第2章 画像の再考・新常識

P.42 掲載の参考文献
1) 岡田敬史ほか : 急性期脳梗塞における画像診断の現状-全国アンケート調査. 脳卒中 42 : 502-8, 2020
Medical*Online
2) Pressman BD, et al : An early CT sign of ischemic infarction : increased density in a cerebral artery. AJR Am J Roentgenol 149 : 583-6, 1987
 
3) Moulin T, et al : Early CT signs in acute middle cerebral artery infarction : predictive value for subsequent infarct locations and outcome. Neurology 47 : 366-75, 1996
PubMed
4) Hacke W, 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 352 : 1245-51, 1998
 
5) Mair G, et al : Sensitivity and specificity of the hyperdense artery sign for arterial obstruction in acute ischemic stroke. Stroke 46 : 102-7, 2015
PubMed
6) Inoue M, et al : Patients with the malignant profile within 3 hours of symptom onset have very poor outcomes after intravenous tissue-type plasminogen activator therapy. Stroke 43 : 2494-6, 2012
PubMed
7) Barber PA, et al : Validity and reliability of a quantitative computed tomography score in predicting outcome of hyperacute stroke before thrombolytic therapy. ASPECTS Study Group. Alberta Stroke Programme Early CT Score. Lancet 355 : 1670-4, 2000
 
8) Bivard A, et al : ASPECTaSaurus (a dinosaur)? Int J Stroke 7 : 564, 2012
PubMed
9) Albers GW, et al : Automated calculation of alberta stroke program early CT score : validation in patients with large hemispheric infarct. Stroke 50 : 3277-9, 2019
PubMed
10) Yamagami H, et al : Guidelines for Mechanical Thrombectomy in Japan, the Fourth Edition, March 2020 : A Guideline from the Japan Stroke Society, the Japan Neurosurgical Society, and the Japanese Society for Neuroendovascular Therapy. Neurol Med Chir 61 : 163-92, 2021
 
11) Powers WJ, et al : 2018 Guidelines for the Early Management of Patients With Acute Ischemic Stroke : A Guideline for Healthcare Professionals From the American Heart Association/American Stroke Association. Stroke 49 : e46-110, 2018
PubMed
12) Ciccone A, et al : Endovascular treatment for acute ischemic stroke. N Engl J Med 368 : 904-13, 2013
PubMed
13) OECD data : Magnetic resonance imaging (MRI) units (最終閲覧日 2022年5月), https://data.oecd.org/healtheqt/magnetic-resonance-imaging-mri-units.htm)
 
14) Koga M, et al : Thrombolysis with alteplase at 0.6 mg/kg for stroke with unknown time of onset : a randomized controlled trial. Stroke 51 : 1530-8, 2020
 
15) Thomalla G, et al : Intravenous alteplase for stroke with unknown time of onset guided by advanced imaging : systematic review and meta-analysis of individual patient data. Lancet 396 : 1574-84, 2020
PubMed
16) Toyoda K, et al : Fluid-attenuated inversion recovery intraarterial signal : an early sign of hyperacute cerebral ischemia. AJNR Am J Neuroradiol 22 : 1021-9, 2001
PubMed
17) 日本脳卒中学会/COVID-19対策プロジェクトチーム/JSS-PCS作成ワーキンググループ : COVID-19対応 脳卒中プロトコル (日本脳卒中学会版 Protected Code Stroke : JSS-PCS). 脳卒中 42 : 315-43, 2020
Medical*Online
18) Chemmanam T, et al : Ischemic diffusion lesion reversal is uncommon and rarely alters perfusion-diffusion mismatch. Neurology 75 : 1040-7, 2010
PubMed
19) Inoue M, et al : Early diffusion-weighted imaging reversal after endovascular reperfusion is typically transient in patients imaged 3 to 6 hours after onset. Stroke 45 : 1024-8, 2014
PubMed
20) Lansberg MG, et al : MRI profile and response to endovascular reperfusion after stroke (DEFUSE 2) : a prospective cohort study. Lancet Neurol 11 : 860-7, 2012
PubMed
21) Albers GW, et al : Magnetic resonance imaging profiles predict clinical response to early reperfusion : the diffusion and perfusion imaging evaluation for understanding stroke evolution (DEFUSE) study. Ann Neurol 60 : 508-17, 2006
PubMed
22) Mlynash M, et al : Refining the definition of the malignant profile : insights from the DEFUSE-EPITHET pooled data set. Stroke 42 : 1270-5, 2011
PubMed
23) Sarraj A, et al : Outcomes of endovascular thrombectomy vs medical management alone in patients with large ischemic cores : a secondary analysis of the optimizing patient's selection for endovascular treatment in acute ischemic stroke (SELECT) study. JAMA Neurol 76 : 1147-56, 2019
 
24) Yoshimoto T, et al : Use of diffusion-weighted imaging-alberta stroke program early computed tomography score (DWI-ASPECTS) and ischemic core volume to determine the malignant profile in acute stroke. J Am Heart Assoc 8 : e012558, 2019
PubMed
25) Yoshimoto T, et al : Identifying large ischemic core volume ranges in acute stroke that can benefit from mechanical thrombectomy. J Neurointerv Surg 13 : 1081-7, 2021
PubMed
26) Yoshimura S, et al : Endovascular therapy for acute stroke with a large ischemic region. N Engl J Med 386 : 1303-13, 2022
PubMed
27) Straka M, et al : Real-time diffusion-perfusion mismatch analysis in acute stroke. J Magn Reson Imaging 32 : 1024-37, 2010
PubMed
28) Albers GW, et al : Assessment of optimal patient selection for endovascular thrombectomy beyond 6 hours after symptom onset : a pooled analysis of the AURORA database. JAMA Neurol 78 : 1064-71, 2021
PubMed
29) Jovin TG, et al : Thrombectomy for anterior circulation stroke beyond 6 h from time last known well (AURORA) : a systematic review and individual patient data meta-analysis. Lancet 399 : 249-58, 2022
 
30) Olivot J-M, et al : Perfusion MRI (Tmax and MTT) correlation with xenon CT cerebral blood flow in stroke patients. Neurology 72 : 1140-5, 2009
PubMed
31) Zaro-Weber O, et al : Maps of time to maximum and time to peak for mismatch definition in clinical stroke studies validated with positron emission tomography. Stroke 41 : 2817-21, 2010
PubMed
32) Inoue M, et al : Mechanical thrombectomy up to 24 hours in large vessel occlusions and infarct velocity assessment. J Am Heart Assoc 10 : e022880, 2021
PubMed
33) Campbell BCV, et al : Cerebral blood flow is the optimal CT perfusion parameter for assessing infarct core. Stroke 42 : 3435-40, 2011
PubMed
34) Olivot JM, et al : Hypoperfusion intensity ratio predicts infarct progression and functional outcome in the DEFUSE 2 Cohort. Stroke 45 : 1018-23, 2014
PubMed
35) アルム : Join 医療関係者間コミュニケーションアプリ (最終閲覧日 2022年5月), https://www.allm.net/join/
 
36) RapidAI : ホームページ (最終閲覧 2022年5月), https://www.rapidai.com
 
37) Psychogios M-N, et al : One-Stop management of acute stroke patients : minimizing door-to-reperfusion times. Stroke 48 : 3152-5, 2017
PubMed
38) El-Tawil S, et al : Penumbra and re-canalization acute computed tomography in ischemic stroke evaluation : PRACTISE study protocol. Int J Stroke 12 : 671-8, 2017
PubMed
39) Nguyen TN, et al : Noncontrast computed tomography vs computed tomography perfusion or magnetic resonance imaging selection in late presentation of stroke with large-vessel occlusion. JAMA Neurol 79 : 22-31, 2022
 
P.52 掲載の参考文献
1) Goyal M, et al : Endovascular thrombectomy after large-vessel ischaemic stroke : a meta-analysis of individual patient data from five randomized trials. Lancet 387 : 1723-31, 2016
PubMed
2) Zaidat OO, et al : First pass effect : a new measure for stroke thrombectomy devices. Stroke 49 : 660-6, 2018
PubMed
3) Yoshimura S, et al : Endovascular therapy in ischemic stroke with acute large-vessel occlusion : recovery by endovascular salvage for cerebral ultra-acute embolism Japan registry 2. J Am Heart Assoc 7 : e008796, 2018
PubMed
4) Tong X, et al : Thrombectomy versus combined thrombolysis and thrombectomy in patients with acute stroke : a matched-control study. Stroke 52 : 1589-600, 2021
PubMed
5) Baek JH, et al : Outcomes of endovascular treatment for acute intracranial atherosclerosis-related large vessel occlusion. Stroke 49 : 2699-705, 2018
PubMed
6) Khatri P, et al : Time to angiographic reperfusion and clinical outcome after acute ischaemic stroke : an analysis of data from the Interventional Management of Stroke (IMS III) phase 3 trial. Lancet Neurol 13 : 567-74, 2014.
PubMed
7) Niesten JM, et al : Histopathologic composition of cerebral thrombi of acute stroke patients is correlated with stroke subtype and thrombus attenuation. PLoS One 9 : e88882, 2011
 
8) Cho KH, et al : Significance of susceptibility vessel sign on T2*-weighted gradient echo imaging for identification of stroke subtypes. Stroke 36 : 2379-83, 2005
PubMed
9) Leys D, et al : Prevalence and significance of hyperdense middle cerebral artery in acute stroke. Stroke 23 : 317-24, 1992
PubMed
10) Kim SK, et al : Clinical implications of CT hyperdense artery sign in patients with acute middle cerebral artery occlusion in the era of modern mechanical thrombectomy. J Neurol 264 : 2450-6, 2017
PubMed
11) Qazi S, et al : Identifying thrombus on non-contrast CT in patients with acute ischemic stroke. Diagnostics (Basel) 11 : 1919, 2021
PubMed
12) Compagne KCJ, et al : Intracranial carotid artery calcification and effect of endovascular stroke treatment. Stroke 49 : 2961-8, 2018
PubMed
13) Flacke S, et al : Middle cerebral artery (MCA) susceptibility sign at susceptibility-based perfusion MR imaging : clinical importance and comparison with hyperdense MCA sign at CT. Radiology 215 : 476-82, 2000
PubMed
14) Kang DW, et al : Prediction of stroke subtype and recanalization using susceptibility vessel sign on susceptibility-weighted magnetic resonance imaging. Stroke 48 : 1554-9, 2017
PubMed
15) Liebeskind DS, et al : CT and MRI early vessel signs reflect clot composition in acute stroke. Stroke 42 : 1237-43, 2011
PubMed
16) Wysokinski WE, et al : Atrial fibrillation and thrombosis : immunohistochemical differences between in situ and embolized thrombi. J Thromb Haemost 2 : 1637-44, 2004
PubMed
17) Bourcier R, et al : Susceptibility Vessel Sign and Cardioembolic Etiology in the THRACE Trial. Clin Neuroradiol 29 : 685-92, 2019.
PubMed
18) Yamamoto N, et al : Two-layered susceptibility vessel sign on 3-tesla T2*-weighted imaging is a predictive biomarker of stroke subtype. Stroke 46 : 269-71, 2015
PubMed
19) Bourcier R, et al : Validation of overestimation ratio and TL-SVS as imaging biomarker of cardioembolic stroke and time from onset to MRI. Eur Radiol 29 : 2624-31, 2019
 
20) Bourcier R, et al : Two-layered susceptibility vessel sign and high overestimation ratio on MRI are predictive of cardioembolic stroke. AJNR Am J Neuroradiol 40 : 65-7, 2019
PubMed
21) Albers GW, et al : The diffusion and perfusion imaging evaluation for understanding stroke evolution (DEFUSE) study. Ann Neurol 60 : 508-17, 2006
PubMed
22) Davis SM, et al : Effects of alteplase beyond 3 h after stroke in the Echoplanar Imaging Thrombolytic Evaluation Trial (EPITHET) : a placebo-controlled randomised trial. Lancet Neurol 7 : 299-309.
PubMed
23) Tu HTH, et al : Worse stroke outcome in atrial fibrillation is explained by more severe hypoperfusion, infarct growth, and hemorrhagic transformation. Int J Stroke 10 : 534-40, 2015
PubMed
24) Lansberg MG, et al : MRI profile and response to endovascular reperfusion after stroke (DEFUSE 2) : a prospective cohort study. Lancet Neurol 11 : 860-7, 2012
PubMed
25) Olivot JM, et al : Hypoperfusion intensity ratio predicts infarct progression and functional outcome in the DEFUSE 2 Cohort. Stroke 45 : 1018-23, 2014
PubMed
26) Lee JS, et al : Endovascular Therapy of cerebral arterial occlusions : intracranial atherosclerosis versus embolism. J Stroke Cerebrovasc Dis 24 : 2074-80, 2015
PubMed
27) Yoon W, et al : Endovascular treatment and the outcomes of atherosclerotic intracranial stenosis in patients with hyperacute stroke. Neurosurgery 76 : 680-6, 2015
PubMed
28) Kim YW, et al : Effect of intracranial atherosclerotic disease on endovascular treatment for patients with acute vertebrobasilar occlusion. AJNR Am J Neuroradiol 37 : 2072-8, 2016
PubMed
29) Lee JS, et al : Primary stent retrieval for acute intracranial large artery occlusion due to atherosclerotic disease. J Stroke 18 : 96-101, 2016
 
30) Al Kasab S, et al : Endovascular treatment for AIS with underlying ICAD. J Neurointerv Surg 9 : 948-51, 2017
PubMed
31) Lee YY, et al : Acute basilar artery occlusion : differences in characteristics and outcomes after endovascular therapy between patients with and without underlying severe atherosclerotic stenosis. AJNR Am J Neuroradiol 38 : 1600-4, 2017
PubMed
32) Yi TY, et al : Special endovascular treatment for acute large artery occlusion resulting from atherosclerotic disease. World Neurosurg 103 : 65-72, 2017
PubMed
33) Jia B, et al : Mechanical thrombectomy and rescue therapy for intracranial large artery occlusion with underlying atherosclerosis. J Neurointerv Surg 10 : 746-50, 2018
PubMed
34) Baek JH, et al : Importance of truncal-type occlusion in stentriever-based thrombectomy for acute stroke. Neurology 87 : 1542-50, 2016
PubMed
35) Chuming H, et al : Association between occlusion type and etiology of acute intracranial large artery occlusion. Front Neurol 22 : 582388, 2020
 
36) Baek JH, et al : Predictive value of computed tomography angiography-determined occlusion type in stent retriever thrombectomy. Stroke 48 : 2746-52, 2017
PubMed
37) Jin X, et al : Jet-Like appearance in angiography as a predictive image marker for the occlusion of intracranial atherosclerotic stenosis. Front Neurol 11 : 575567, 2020
PubMed
38) Garcia-Bermejo P, et al : Baseline occlusion angiographic appearance on mechanical thrombectomy suggests underlying etiology and outcome. Front Neurol 10 : 499, 2019
PubMed
39) Lee J, et al : Blood flow modulation of vascular dynamics. Curr Opin Lipidol 26 : 376-83, 2015
PubMed
40) Hwang YH, et al : Impact of target arterial residual stenosis on outcome after endovascular revascularization. Stroke 47 : 1850-7, 2016
PubMed
P.61 掲載の参考文献
1) Horikawa Y, et al : Proton NMR relaxation times in ischemic brain edema. Stroke 17 : 1149-52, 1986
PubMed
2) Xu XQ, et al : Use of FLAIR imaging to identify onset time of cerebral ischemia in a canine model. AJNR Am J Neuroradiol 35 : 311-6, 2014
 
3) Noguchi K, et al : MRI of acute cerebral infarction : a comparison of FLAIR and T2-weighted fast spin-echo imaging. Neuroradiology 39 : 406-10, 1997
PubMed
4) Aoki J, et al : FLAIR can estimate the onset time in acute ischemic stroke patients. J Neurol Sci 293 : 39-44, 2010
PubMed
5) Thomalla G, et al : Negative fluid-attenuated inversion recovery imaging identifies acute ischemic stroke at 3 hours or less. Ann Neurol 65 : 724-32, 2009
 
6) Thomalla G, et al : DWI-FLAIR mismatch for the identification of patients with acute ischaemic stroke within 4.5 h of symptom onset (PRE-FLAIR) : a multicentre observational study. Lancet Neurol 10 : 978-86, 2011
 
7) Emeriau S, et al : Can diffusion-weighted imaging-fluid-attenuated inversion recovery mismatch (positive diffusion-weighted imaging/negative fluid-attenuated inversion recovery) at 3 Tesla identify patients with stroke at < 4.5 hours? Stroke 44 : 1647-51, 2013
PubMed
8) Aoki J, et al : Intravenous thrombolysis based on diffusion-weighted imaging and fluid-attenuated inversion recovery mismatch in acute stroke patients with unknown onset time. Cerebrovasc Dis 31 : 435-41, 2011
PubMed
9) Aoki J, et al : Negative fluid-attenuated inversion recovery-based intravenous thrombolysis using recombinant tissue plasminogen activator in acute stroke patients with unknown onset time. Cerebrovasc Dis Extra 3 : 35-45, 2013
PubMed
10) Thomalla G, et al : MRI-guided thrombolysis for stroke with unknown time of onset. N Engl J Med 379 : 611-22, 2018
PubMed
11) Koga M, et al : Thrombolysis with alteplase at 0.6 mg/kg for stroke with unknown time of onset : a randomized controlled Trial. Stroke 51 : 1530-8, 2020
 
12) Toyoda K, et al : Magnetic resonance imaging-guided thrombolysis (0.6 mg/kg) was beneficial for unknown onset stroke above a certain core size : THAWS RCT Substudy. Stroke 52 : 12-19, 2021
 
13) Schwamm LH, et al : Intravenous thrombolysis in unwitnessed stroke onset : MR WITNESS trial results. Ann Neurol 83 : 980-93, 2018
PubMed
14) Sakakibara F, et al : Diffusion-weighted imaging-fluid-attenuated inversion recovery mismatch is associated with 90-day functional outcomes in patients undergoing mechanical thrombectomy. Cerebrovasc Dis 49 : 292-300, 2020
PubMed
15) Aoki J, et al : Fluid-attenuated inversion recovery may serve as a tissue clock in patients treated with endovascular thrombectomy. Stroke 52 : 2232-40, 2021
PubMed
16) Kang DW, et al : Reperfusion therapy in unclear-onset stroke based on MRI evaluation (RESTORE) : a prospective multicenter study. Stroke 43 : 3278-83, 2012
PubMed
17) Yoshimura S, et al : Endovascular therapy for acute stroke with a large ischemic region. N Engl J Med 386 : 1303-13, 2022
PubMed
18) Kim T, et al : The role of the signal intensity ratio on fluid-attenuated inversion recovery in stroke patients achieving successful recanalization with endovascular treatment. J Stroke Cerebrovasc Dis 26 : 1528-34, 2017
PubMed
19) Song SS, et al : A pragmatic approach using magnetic resonance imaging to treat ischemic strokes of unknown onset time in a thrombolytic trial. Stroke 43 : 2331-5, 2012
 
20) Siemonsen S, et al : Quantitative t2 values predict time from symptom onset in acute stroke patients. Stroke 40 : 1612-6, 2009
PubMed
21) Madai VI, et al : DWI intensity values predict FLAIR lesions in acute ischemic stroke. PLoS One 9 : e92295, 2014
PubMed
22) Galinovic I, et al : Visual and region of interest-based inter-rater agreement in the assessment of the diffusion-weighted imaging-fluid-attenuated inversion recovery mismatch. Stroke 45 : 1170-2, 2014
PubMed
23) Cheng B, et al : Quantitative signal intensity in fluid-attenuated inversion recovery and treatment effect in the WAKE-UP trial. Stroke 51 : 209-15, 2020
PubMed
24) 日本脳卒中学会ほか : 静注血栓溶解 (rt-PA) 療法 適正治療指針 第三版 (2019年3月)
Medical*Online
25) Nagai K, et al : About 30% of wake-up stroke patients may be candidate for the tPA therapy using Negative-FLAIR as a "tissue clock". J Neurol Sci 382 : 101-4, 2017
 
26) Odland A, et al : Are the current MRI criteria using the DWI-FLAIR mismatch concept for selection of patients with wake-up stroke to thrombolysis excluding too many patients? Scand J Trauma Resusc Emerg Med 23 : 22, 2015
PubMed
27) Wouters A, et al : Association between time from stroke onset and fluid-attenuated inversion recovery lesion intensity is modified by status of collateral circulation. Stroke 47 : 1018-22, 2016
PubMed
P.69 掲載の参考文献
1) Goyal M, et al : Endovascular thrombectomy after large-vessel ischemic stroke : a meta-analysis of individual patient data from five randomised trials. Lancet 387 : 1723-31, 2016.
 
2) Zaidat OO, et al : Recommendations on angiographic revascularization grading standards for acute ischemic stroke : a consensus statement. Stroke 44 : 2650-63, 2013
PubMed
3) Powers WJ, et al : American Heart Association Stroke Council. 2018 guidelines for the early management of patients with acute ischemic stroke : a guideline for healthcare professionals from the American Heart Association/American Stroke Association. Stroke 49 : e46-e110, 2018
PubMed
4) Liebeskind DS, et al : eTICI reperfusion : defining success in endovascular stroke therapy. J Neurointerv Surg 11 : 433-8, 2019
PubMed
5) Higashida RT, et al : Trial design and reporting standards for intraarterial cerebral thrombolysis for acute ischemic stroke. Stroke 34 : e109-37, 2003
PubMed
6) Zaidat OO, et al : Recommendations on angiographic revascularization grading standards for acute ischemic stroke : a consensus statement. Stroke 44 : 2650-63, 2013
PubMed
7) Yoo AJ, et al : Refining angiographic biomarkers of reperfusion : modified TICI is superior to TIMI for predicting clinical outcomes after intra-arterial therapy. Stroke 44 : 2509-12, 2013
PubMed
8) Dargazanli C, et al : Impact of modified TICI 3 versus modified TICI 2b reperfusion score to predict good outcome following endovascular therapy. AJNR Am J Neuroradiol 38 : 90-6, 2017
PubMed
9) Noser EA, et al : Aggressive mechanical clot disruption : a safe adjunct to thrombolytic therapy in acute stroke? Stroke 36 : 292-6, 2005
PubMed
10) Goyal M, et al : 2C or not 2C : defining an improved revascularization grading scale and the need for standardization of angiography outcomes in stroke trials. J Neurointerv Surg 6 : 83-6, 2014
 
11) Tung EL, et al : Rethinking thrombolysis in cerebral infarction 2b : which thrombolysis in cerebral infarction scales best define near complete recanalization in the modern thrombectomy era? Stroke 48 : 2488-93, 2017
PubMed
12) Dargazanli C, et al : Modified Thrombolysis in Cerebral Infarction 2C/Thrombolysis in Cerebral Infarction 3 reperfusion should be the aim of mechanical thrombectomy : insights from the ASTER trial (contact aspiration versus stent retriever for successful revascularization). Stroke 49 : 1189-96, 2018
PubMed
13) Ghozy S, et al : Successful mechanical thrombectomy in acute ischemic stroke : revascularization grade and functional independence. J Neurointerv Surg 2022 : doi : 10.1136/neurintsurg-2021-018436.
 
14) Hill MD, et al : Efficacy and safety of nerinetide for the the treatment of acute ischaemic stroke (ESCAPE-NA1) : a multicentre, double-blind, randomised controlled trial. Lancet 395 : 878-87, 2020
PubMed
15) Kaesmacher J, et al : Improving mTICI 2b reperfusion to mTICI 2c/3 reperfusions : a retrospective observational study assessing technical feasibility, safety and clinical efficacy. Eur Radiol 28 : 274-82, 2018
 
16) Flottman F, et al : Early TICI 2b or late TICI 3-is perfect the enemy of good? Clin Neuroradiol 2021 : doi : 10.1007/s00062-021-01048-8.
 
17) Russo R, et al : Mechanical thrombectomy in distal residual occlusions of the middle cerebral artery after large vessel recanalization in acute stroke : 2b or not 2b? A pragmatic approach in real-life scenarios. World Neurosurg 151 : e793-e802, 2021
PubMed
18) Koge J, et al : Mechanical thrombectomy beyond 2b reperfusion : should we pursue a higher reperfusion grade after achievement of 2b? Stroke Vasc Interv Neurol 2022 : doi : 10.1161/SVIN.121.000196
 
19) Kaesmacher J, et al : Thrombolysis in cerebral infarction 2b reperfusions : to treat or to stop? Stroke 51 : 3461-71, 2020
 
20) Raychev R, et al : Impact of eloquent motor cortex-tissue reperfusion beyond the traditional thrombolysis in cerebral infarction (TICI) scoring after thrombectomy. J Neurointerv Surg : doi : 10.1136/neurintsurg-2020-016834
 
21) Rubiera M, et al : Computed tomography perfusion after thrombectomy : a immediate surrogate marker of outcome after recanalization in acute stroke. Stroke 51 : 1736-42, 2020
PubMed
22) Tan Z, et al : Optimal tissue reperfusion estimation by computed tomography perfusion post-thrombectomy in acute ischemic stroke. Stroke 52 : e760-3, 2021
PubMed
P.81 掲載の参考文献
1) 国際放射線防護委員会 : ICRP Publication 22 : "線量は容易に達成できるかぎり低く保つべきである" という委員会勧告の意味合いについて (最終閲覧 2022年7月), https://www.icrp.org/docs/P22_Japanese.pdf
 
2) 国際放射線防護委員会 : ICRP Publication 85 : IVRにおける放射線障害の回避 (最終閲覧 2022年7月), https://www.icrp.org/docs/P85_Japanese.pdf
 
3) 国際放射線防護委員会 : ICRP Publication 105 : 医学における放射線防護 (最終閲覧 2022年7月), https://www.icrp.org/docs/P105-2_Japanese.pdf
 
4) 国際放射線防護委員会 : ICRP Publication 118 : 正常な組織・臓器における放射線の早期影響と晩発影響 (最終閲覧 2022年7月), https://www.icrp.org/docs/P118_Japanese.pdf
 
5) 医療被ばく研究情報ネットワーク : 日本の診断参考レベル (2020年版) (最終閲覧 2022年7月), http://www.radher.jp/J-RIME/report/JapanDRL2020_jp.pdf
 
6) 藤田有希ほか : 新たな水晶体等価線量限度に関する放射線防護の課題. 保健物理 48 : 86-96, 2013
 
7) 中村仁信ほか : IVRの臨床と被曝防護. 医療科学社, 東京, 2004
 
8) McCollough CH, Leng S : Use of artificial intelligence in computed tomography dose optimisation. Annals of the ICRP 49 : 113-25, 2020
PubMed
9) 厚生労働省 : 眼の水晶体の被ばく限度の見直し等に関する検討会報告書 (最終閲覧 2022年7月), https://www.mhlw.go.jp/content/11303000/000549964.pdf
 
P.85 掲載の参考文献
1) Chalikias G, et al : Contrast-Induced Acute Kidney Injury : An Update. Cardiovasc Drugs Ther 30 : 215-28, 2016
PubMed
2) Do C : Intravenous Contrast : Friend or Foe? A Review on Contrast-Induced Nephropathy. Adv Chronic Kidney Dis 24 : 147-9, 2017
PubMed
3) Ohta T, et al : Optimizing in-hospital triage for large vessel occlusion using a novel clinical scale (GAI2AA). Neurology 93 : 1-10, 2019
PubMed
4) 政平訓貴ほか : 神戸宣言, その後 : 急性期脳梗塞に対する血管内治療の普及の取り組み-各地方の取り組み-四国地方. 脳血管内治療 4 : 44-51, 2019
 
5) Ohta T, et al : Safety and efficacy of intravenous low-dose alteplase in relative contraindication patients with acute ischemic stroke. J Stroke Cerebrovasc Dis 27 : 1844-51, 2018
PubMed
6) Criado FJ : Mastering carotid Intervention. Endovascular Today 9 : 65-8, 2003
 
7) Fukuda M, et al : Three-dimensional Visualization of Aortic Arch Morphology via Rearrangement of Non-enhanced Thoracic CT Images. JNET 14 : 151-6, 2020
 

第3章 都心部と地域での医療体制の違い

P.94 掲載の参考文献
1) Fujita K, et al : Outcomes of large vessel occlusion stroke in patients aged > 90 years. Stroke 52 : 1561-9, 2021
PubMed
2) Turin TC, et al : Lifetime risk of stroke in Japan. Stroke 41 : 1552-4, 2010
PubMed
3) Nakai M, et al : Development of a cardiovascular disease risk prediction model using the Suita study, a population-based prospective cohort study in Japan. J Atheroscler Thromb 27 : 1160-75, 2020
PubMed
P.99 掲載の参考文献
1) Ota T, et al : Regionwide retrospective survey of acute mechanical thrombectomy in Tama, Suburban Tokyo : a preliminary report. J Stroke Cerebrovasc Dis 27 : 3350-5, 2018
PubMed
2) 東京都福祉保健局 : 東京都地域医療再生計画 (多摩地域) (最終閲覧 2022年5月), http://www.fukushihoken.metro.tokyo.jp/iryo/iryo_hoken/tiiki_iryo_saiseikeikaku.files/keikaku_tama.pdf
 
3) 東京都福祉保健局 : 東京都における脳卒中医療連携の取組 (最終閲覧 2022年5月), https://www.fukushihoken.metro.tokyo.lg.jp/iryo/iryo_hoken/nousottyuutorikumi
 
4) Mueller-Kronast NH, et al : Systematic evaluation of patients treated with neurothrombectomy devices for acute ischemic stroke : primary results of the STRATIS registry. Stroke 48 : 2760-8, 2017
PubMed
5) 東京都福祉保健局 : 東京都脳卒中救急搬送体制実態調査 (第2回) 報告書 (最終閲覧 2022年5月), http://www.fukushihoken.metro.tokyo.jp/iryo/iryo_hoken/nousottyuutorikumi/nousottyuuhoukokusyo.html
 
6) Ota T, et al : Door-to-needle time under 60 minutes and picture-to-puncture under 90 minutes : initiatives and outcomes in reducing time to recanalization for cerebral major artery occlusion. Neurol Med Chir (Tokyo) 56 : 725-30, 2016
PubMed
7) Abe A, et al : Tokyo metropolitan stroke emergency medical services for interventional stroke treatment : The Tama-REgistry of Acute Thrombectomy (TREAT) study. J Stroke Cerebrovasc Dis 29 : 104752, 2020
 
8) Takagi T, et al : The current status of endovascular thrombectomy for acute ischemic stroke in Japan : results of a nationwide questionnaire survey in 2016. JNET 11 : 504-11, 2017
 
9) Bucke P, et al : Endovascular thrombectomy in acute ischemic stroke : outcome in referred versus directly admitted patients. Clin Neuroradiol 28 : 235-44, 2018
PubMed
10) Shigeta K, et al : Widening time disparities between two paradigms : Tama-REgistry of acute endovascular thrombectomy. J Stroke Cerebrovasc Dis 28 : 1267-73, 2019
PubMed
P.104 掲載の参考文献
1) 小濱啓次 : ドクターヘリ総論, 2-11 (日本航空医療学会監修 : ドクターヘリハンドブック : ドクターヘリ安全運航のために. へるす出版, 東京, 2015)
 
2) 古澤正人 : ヘリコプターの基礎知識, 28-37 (日本航空医療学会監修 : ドクターヘリハンドブック : ドクターヘリ安全運航のために. へるす出版, 東京, 2015)
 
3) 福田真紀ほか : ドクターヘリを応用したrt-PA早期投与のための地域医療連携. Neurosurg Emerg 22 : 135-41, 2017
 
4) 福田真紀ほか : 脳卒中の急性期診療におけるドクターヘリの役割. Neurosurg Emerg 24 : 116-21, 2019
Medical*Online
5) Turk AS, et al : Initial clinical experience with the ADAPT technique : A direct aspiration first pass technique for stroke thrombectomy. J Neurointerv Surg 6 : 231-7, 2014
PubMed
P.111 掲載の参考文献
1) 大塚寛朗ほか : 脳卒中非専門内科医が初動する長崎県離島施設前脳卒中ホットラインシステム (I-SHOT) の構築-本土急性期基幹病院と連携した診療・搬送システムの試み-. 脳卒中 43 : 421-8, 2021
Medical*Online
2) Hiu Takeshi, et al : Efficacy of the drip and ship method in 24-h helicopter transportation and teleradiology for isolated islands. Neurol Med Chir 59 : 504-10, 2019
PubMed
3) 川原一郎ほか : 長崎県離島発症の急性期脳梗塞患者に対するrt-PA投与 ヘリコプター搬送による "drip-and-ship" 法の試み. 脳卒中 34 : 69-75, 2012
Medical*Online
P.117 掲載の参考文献
1) 国土交通省気象庁ホームページ : 各種データ・資料 : 過去の気象データ検索 (最終閲覧 2022年5月), http://www.data.jma.go.jp
 
2) Takizawa S, et al : Seasonal variation of stroke incidence in Japan for 35631 stroke patients in the Japanese Standard Stroke Registry, 1998-2007. J Stroke Cerebrovasc Dis 22 : 36-41, 2013
PubMed
3) 豊田章宏 : 全国労災病院46,000例からみた脳卒中発症の季節性 (2002~2008年). 脳卒中 33 : 226-35, 2011
Medical*Online
4) Toyoda K, et al : Seasonal variations in neurological severity and outcomes of ischemic stroke : 5-year single-center observational study. Circ J 82 : 1443-50, 2018
PubMed
P.123 掲載の参考文献
1) Wosik J, et al : Telehealth transformation : COVID-19 and the rise of virtual care. J Am Med Inform Assoc 27 : 957-62, 2020
 
2) Levine SR, et al : Telestroke : the application of telemedicine for stroke. Stroke 30 : 464-9, 1999
PubMed
3) Meyer BC, et al : Assessment of long-term outcomes for the STRokE DOC telemedicine trial. J Stroke Cerebrovasc Dis 21 : 259-64, 2012
 
4) Demaerschalk BM, et al : Reliability of real-time video smartphone for assessing National Institutes of Health Stroke Scale scores in acute stroke patients. Stroke 43 : 3271-7, 2012
PubMed
5) Waite K, et al : Telestroke : a multi-site, emergency-based telemedicine service in Ontario. J Telemed Telecare 12 : 141-5, 2006
PubMed
6) Sakai K, et al : Communication-type smartphone application can contribute to reducing elapsed time to reperfusion therapy. Neurol Sci 26 : 1-6, 2021
 
7) Takao H, et al : A new support system using a mobile device (smartphone) for diagnostic image display and treatment of stroke. Stroke 43 : 236-9, 2012
PubMed
8) Takao H, et al : A smartphone application as a telemedicine tool for stroke care management. Neurol Med Chir (Tokyo) 61 : 260-7, 2021
PubMed
9) Ishibashi T, et al : Remote neuro-endovascular consultation using a secure telemedicine system : a feasibility. Surg Neurol Int 13 : 47, 2022
PubMed

第4章 社会情勢の変化と血栓回収療法

P.132 掲載の参考文献
1) Oxley TJ, et al : Large-vessel stroke as a presenting feature of Covid-19 in the young. N Engl J Med 382 : e60, 2020
 
2) Fridman S, et al : Stroke risk, phenotypes, and death in COVID-19 : systematic review and newly reported cases. Neurology 95 : e3373-e85, 2020
PubMed
3) Nannoni S, et al : Stroke in COVID-19 : a systematic review and meta-analysis. Int J Stroke 16 : 137-49, 2021
PubMed
4) Shahjouei S, et al : Risk of stroke in hospitalized SARS-CoV-2 infected patients : a multinational study. EBioMedicine 59 : 102939, 2020
PubMed
5) Tsivgoulis G, et al : Ischemic stroke epidemiology during the COVID-19 pandemic : navigating uncharted waters with changing tides. Stroke 51 : 1924-6, 2020
PubMed
6) Merkler AE, et al : Risk of ischemic stroke in patients with coronavirus disease 2019 (COVID-19) vs patients with influenza. JAMA Neurol 77 : 1-7, 2020
PubMed
7) Belani P, et al : COVID-19 is an independent risk factor for acute ischemic stroke. AJNR Am J Neuroradiol 41 : 1361-4, 2020
PubMed
8) Katsoularis I, et al : Risk of acute myocardial infarction and ischaemic stroke following COVID-19 in Sweden : a self-controlled case series and matched cohort study. Lancet 398 : 599-607, 2021
PubMed
9) Yang Q, et al : COVID-19 and risk of acute ischemic stroke among medicare beneficiaries aged 65 years or older : self-controlled case series study. Neurology 98 : e778-e89, 2022
PubMed
10) Ntaios G, et al : Characteristics and outcomes in patients with COVID-19 and acute ischemic stroke : the Global COVID-19 Stroke Registry. Stroke 51 : e254-e8, 2020
PubMed
11) Yaghi S, et al : SARS-CoV-2 and stroke in a New York Healthcare System. Stroke 51 : 2002-11, 2020
 
12) Srivastava PK, et al : Acute ischemic stroke in patients with COVID-19 : an analysis from get with the guidelines-stroke. Stroke 52 : 1826-9, 2021
PubMed
13) Majidi S, et al : Emergent large vessel occlusion stroke during New York City's COVID-19 outbreak : clinical characteristics and paraclinical findings. Stroke 51 : 2656-63, 2020
PubMed
14) Kihira S, et al : Association of coronavirus disease (COVID-19) with large vessel occlusion strokes : a case-control study. AJR Am J Roentgenol 216 : 150-6, 2021
 
15) Gupta A, et al : Extrapulmonary manifestations of COVID-19. Nat Med 26 : 1017-32, 2020
PubMed
16) Iba T, et al : The coagulopathy, endotheliopathy, and vasculitis of COVID-19. Inflamm Res 69 : 1181-9, 2020
PubMed
17) Spence JD, et al : Mechanisms of stroke in COVID-19. Cerebrovasc Dis 49 : 451-8, 2020
PubMed
18) Fara MG, et al : Macrothrombosis and stroke in patients with mild Covid-19 infection. J Thromb Haemost 18 : 2031-3, 2020
PubMed
19) Franceschi AM, et al : Neurovascular complications in COVID-19 Infection : case series. AJNR Am J Neuroradiol 41 : 1632-40, 2020
PubMed
20) Mohamud AY, et al : Intraluminal carotid artery thrombus in COVID-19 : another danger of cytokine storm? AJNR Am J Neuroradiol 41 : 1677-82, 2020
PubMed
21) Lapergue B, et al : Large vessel stroke in six patients following SARS-CoV-2 infection : a retrospective case study series of acute thrombotic complications on stable underlying atherosclerotic disease. Eur J Neurol 27 : 2308-11, 2020
PubMed
22) John S, et al : Characteristics of large-vessel occlusion associated with COVID-19 and ischemic stroke. AJNR Am J Neuroradiol 41 : 2263-8, 2020
PubMed
23) Esenwa C, et al : COVID-19-associated carotid atherothrombosis and stroke. AJNR Am J Neuroradiol 41 : 1993-5, 2020
PubMed
24) Escalard S, et al : Early brain imaging shows increased severity of acute ischemic strokes with large vessel occlusion in COVID-19 patients. Stroke 51 : 3366-70, 2020
PubMed
25) Wang A, et al : Stroke and mechanical thrombectomy in patients with COVID-19 : technical observations and patient characteristics. J Neurointerv Surg 12 : 648-53, 2020
PubMed
26) Escalard S, et al : Treatment of acute ischemic stroke due to large vessel occlusion with COVID-19 : experience from Paris. Stroke 51 : 2540-3, 2020
PubMed
27) Cagnazzo F, et al : European Multicenter Study of ET-COVID-19. Stroke 52 : 31-9, 2021
PubMed
28) Styczen H, et al : Mechanical thrombectomy for acute ischemic stroke in COVID-19 patients : multicenter experience in 111 cases. J Neurointerv Surg : doi : 10.1136/neurintsurg-2022-018723, 2022
 
29) Jabbour P, et al : Characteristics of a COVID-19 Cohort With Large Vessel Occlusion : A Multicenter International Study. Neurosurgery 90 : 725-33, 2022
 
30) Janardhan V, et al : COVID-19 as a blood clotting disorder masquerading as a respiratory illness : a cerebrovascular perspective and therapeutic implications for stroke thrombectomy. J Neuroimaging 30 : 555-61, 2020
PubMed
31) Hernandez-Fernandez F, et al : Cerebrovascular disease in patients with COVID-19 : neuroimaging, histological and clinical description. Brain 143 : 3089-103, 2020
PubMed
32) Boeckh-Behrens T, et al : COVID-19-associated large vessel stroke in a 28-year-old Patient : NETs and platelets possible key players in acute thrombus formation. Clin Neuroradiol 31 : 511-4, 2021
 
33) Genchi A, et al : Neutrophils predominate the immune signature of cerebral thrombi in COVID-19 stroke patients. Acta Neuropathol Commun 10 : 14, 2022
PubMed
34) Gunning GM, et al : Clot friction variation with fibrin content ; implications for resistance to thrombectomy. J Neurointerv Surg 10 : 34-8, 2018
PubMed
35) Hashimoto T, et al : Histopathologic analysis of retrieved thrombi associated with successful reperfusion after acute stroke thrombectomy. Stroke 47 : 3035-7, 2016
PubMed
36) Maekawa K, et al : Erythrocyte-rich thrombus is associated with reduced number of maneuvers and procedure time in patients with acute ischemic stroke undergoing mechanical thrombectomy. Cerebrovasc Dis Extra 8 : 39-49, 2018
PubMed
37) Kansagra AP, et al : Collateral effect of Covid-19 on stroke evaluation in the United States. N Engl J Med 383 : 400-1, 2020
PubMed
38) Lange SJ, et al : Potential indirect effects of the COVID-19 pandemic on use of emergency departments for acute life-threatening conditions-United States, January-May 2020. MMWR Morb Mortal Wkly Rep 69 : 795-800, 2020
PubMed
39) July J, et al : Impact of the coronavirus disease pandemic on the number of strokes and mechanical thrombectomies : a systematic review and meta-analysis. J Stroke Cerebrovasc Dis 29 : 105185, 2020
 
40) Nogueira RG, et al : Global impact of COVID-19 on stroke care. Int J Stroke 16 : 573-84, 2021
PubMed
41) Nogueira RG, et al : Global impact of COVID-19 on stroke care and IV thrombolysis. Neurology 96 : e2824-e38, 2021
PubMed
42) Ishaque N, et al : Trends in stroke presentations before and during the COVID-19 pandemic : a meta-analysis. J Stroke 24 : 65-78, 2022
PubMed
43) Katsanos AH, et al : Changes in stroke hospital care during the COVID-19 pandemic : a systematic review and meta-analysis. Stroke 52 : 3651-60, 2021
PubMed
44) Perry R, et al : What has caused the fall in stroke admissions during the COVID-19 pandemic? J Neurol 267 : 3457-8, 2020
PubMed
45) Diegoli H, et al : Decrease in hospital admissions for transient ischemic attack, mild, and moderate stroke during the COVID-19 era. Stroke 51 : 2315-21, 2020
PubMed
46) Hajdu SD, et al : Acute stroke management during the COVID-19 pandemic : does confinement impact eligibility for endovascular therapy? Stroke 51 : 2593-6, 2020
PubMed
47) Nawabi NLA, et al : Effects of the COVID-19 pandemic on stroke response times : a systematic review and meta-analysis. J Neurointerv Surg : doi : 10.1136/neurintsurg-2021-018230, 2022
 
48) Elsgler JE, et al : Influence of the COVID-19 pandemic on treatment times for acute ischemic stroke : the society of vascular and interventional neurology multicenter collaboration. Stroke 52 : 40-7, 2021
 
49) Srivastava PK, et al : Treatment and outcomes of patients with ischemic stroke during COVID-19 : an analysis from get with the guidelines-stroke. Stroke 52 : 3225-32, 2021
PubMed
50) Tiedt S, et al : Impact of the COVID-19-pandemic on thrombectomy services in Germany. Neurol Res Pract 2 : 44, 2020
PubMed
51) Ohara N, et al : Stroke systems of care during the COVID-19 epidemic in Kobe City. J Stroke Cerebrovasc Dis 29 : 105343, 2020
 
52) Katsumata M, et al : Impact of coronavirus disease 2019 on time delay and functional outcome of mechanical thrombectomy in Tokyo, Japan. J Stroke Cerebrovasc Dis 30 : 106051, 2021
PubMed
53) Khosravani H, et al : Protected code stroke : hyperacute stroke management during the coronavirus disease 2019 (COVID-19) pandemic. Stroke 51 : 1891-5, 2020
PubMed
54) AHA/ASA Stroke Council Leadership : Temporary emergency guidance to US stroke centers during the coronavirus disease 2019 (COVID-19) pandemic : on Behalf of the American Heart Association/American Stroke Association Stroke Council Leadership. Stroke 51 : 1910-2, 2020
 
55) 平野照之ほか : 日本脳卒中学会, COVID-19対策プロジェクトチーム, JSS-PCS作成ワーキンググループ, 脳卒中医療向上・社会保険委員会. COVID-19対応 脳卒中プロトコル (日本脳卒中学会版Protected Code Stroke : JSS-PCS) 2020年4月. 脳卒中 42 : 315-43, 2020
 
56) Qureshi AI, et al : Management of acute ischemic stroke in patients with COVID-19 infection : report of an international panel. Int J Stroke 15 : 540-54, 2020
PubMed
57) Goyal M, et al : Prehospital triage of acute stroke patients during the COVID-19 pandemic. Stroke 51 : 2263-7, 2020
PubMed
58) Fraser JF, et al : Society of neuroInterventional surgery recommendations for the care of emergent neurointerventional patients in the setting of COVID-19. J Neurointerv Surg 12 : 539-41, 2020
PubMed
59) Aggour M, et al : European Society of Minimally Invasive Neurological Therapy (ESMINT) recommendations for optimal interventional neurovascular management in the COVID-19 era. J Neurointerv Surg 12 : 542-4, 2020
PubMed
60) Sharma D, et al : Anesthetic Management of Endovascular treatment of Acute Ischemic Stroke During COVID-19 Pandemic : Consensus Statement From Society for Neuroscience in Anesthesiology & Critical Care (SNACC) : Endorsed by Society of Vascular & Interventional Neurology (SVIN), Society of NeuroInterventional Surgery (SNIS), Neurocritical Care Society (NCS), European Society of Minimally Invasive Neurological Therapy (ESMINT) and American Association of Neurological Surgeons (AANS) and Congress of Neurological Surgeons (CNS) Cerebrovascular Section. J Neurosurg Anesthesiol 32 : 193-201, 2020
 
61) Nguyen TN, et al : Mechanical thrombectomy in the era of the COVID-19 pandemic : emergency preparedness for neuroscience teams : a guidance statement from the society of vascular and interventional neurology. Stroke 51 : 1896-901, 2020
 
62) 日本放射線学会 : 新型コロナウイルス感染症 (COVID-19) に対する胸部CT 検査の指針 (Ver.1.0), http://www.radiology.jp/member_info/news_member/20200424_01.html
 
63) Al Kasab S, et al : International experience of mechanical thrombectomy during the COVID-19 pandemic : insights from STAR and ENRG. J Neurointerv Surg 12 : 1039-44, 2020
PubMed
P.140 掲載の参考文献
1) 厚生労働省 : 第66回社会保障審議会医療部会 資料1-1 (最終閲覧 2022年5月), https://www.mhlw.go.jp/content/12601000/000504323.pdf
 
2) 厚生労働省 : 第11回医師の働き方改革の推進に関する検討会 資料 (最終閲覧 2022年5月), https://www.mhlw.go.jp/stf/newpage_15438.html
 
3) Khatri P, et al : Time to angiographic re-perfusion and clinical outcome after acute ischaemic stroke : an analysis of data from the Interventional Management of Stroke (IMS III) phase 3 trial. Lancet Neurol 13 : 567-74, 2014
 
P.146 掲載の参考文献
1) Jackson SE : Recent Research on Team and Organizational Diversity : SWOT Analysis and Implications. J Manage 29 : 801-30, 2003
 
2) 木谷宏 : ダイバーシティ・マネジメントとは何か. 病院 77 : 620-4, 2018
 
3) Nishimura K, et al : Cross-sectional survey of workload and burnout among Japanese physicians working in stroke care the nationwide survey of acute stroke care capacity for proper designation of comprehensive stroke center in japan (j-aspect) study. Circ Cardiovasc Qual Outcomes 7 : 414-22, 2014
PubMed
4) 赤坂治枝 : 医学生が考える理想的な医師の未来像. 日外会誌 119 : 210-4, 2018
 
5) 本藤奈緒 : 学生および初期研修医へのアンケート調査からみる女性外科医を取り巻く問題点. 日消外会誌 54 : 157-65, 2021
 
6) PwC 第18回世界CEO意識調査 : 2015年 境界なき市場 競争への挑戦 (最終閲覧 2022年5月), https://www.pwc.com/jp/ja/knowledge/thoughtleadership/ceo-survey/2015.html
 
7) 桑田耕太郎 : 組織理論と経営者の責任 : スペースシャトル事故の分析を通じて (稲葉元吉教授退任記念号). 成城大學經濟研究 179 : 47-72, 2008
 
8) 勝田和行 : 福島原発事故から経営倫理を考える. 日本経営倫理会誌 20 : 213-25, 2013
 
9) R K. The CS Gender 3000 in 2019 : The Changing Face of Companies. Reserch Institute, Credit Suisse, 2019 (最終閲覧 2022年5月), https://www.credit-suisse.com/about-us-news/en/articles/news-and-expertise/cs-gender-3000-report-2019-201910.html
 
10) 谷口真美 : 組織におけるダイバシティ・マネジメント. 日本労働研究雑誌 574 : 69-84, 2008
 
11) 小川聡子 : 調布東山病院 病院における多様な人材の活用と働き方. 病院 77 : 630-3, 2018
 
12) ICRP Publication 84 : Pregnancy and medical radiation. Ann ICRP 30 : 1-43, 2000
 
13) 合同研究班参加学会 (日本循環器学会ほか) : 女性医療従事者の胎児の被ばく, 28-30 (2021年度改訂版 循環器診療における放射線被爆に関するガイドライン)
 
P.153 掲載の参考文献
1) Nakaya T, et al : Associations of all-cause mortality with census-based neighborhood deprivation and population density in Japan : a multilevel survival analysis. PLoS One 9 : e97802, 2014
PubMed
2) Bouckaert M, et al : Reducing prehospital delay in acute stroke. Nat. Rev. Neurol 5 : 477-83, 2009
PubMed
3) 政平訓貴ほか : 神戸宣言, その後 : 急性期脳梗塞に対する血管内治療の普及の取り組み : 各地方の取り組み 四国地方. 脳血管内治療 : doi : 10.20626/nkc.oa.2018-0005, 2018
 
4) Ohta T, et al : Optimizing in-hospital triage for large vessel occlusion using a novel clinical scale (GAI2AA). Neurology 93 : e1997-e2006, 2019
PubMed
5) RESCUE-Japan study : 人口10万人当たりの治療件数と専門医数 (最終閲覧 2022年5月), http://www.rescue-japan.jp/action1_results.html
 
6) Brown AF, et al : Neighborhood socioeconomic disadvantage and mortality after stroke. Neurology 80 : 520-7, 2013
PubMed
7) Dhand A, et al : Social networks and risk of delayed hospital arrival after acute stroke. Nat Commun 10 : 1206, 2019
PubMed
8) Granovetter MS : The strength of weak ties. Am J Sociol 78 : 1360-80, 1973
 

第5章 デバイスの再考・新常識

P.165 掲載の参考文献
1) Nogueira RG, et al : Trevo versus Merci retrievers for thrombectomy revascularisation of large vessel occlusions in acute ischaemic stroke (TREVO 2) : a randomised trial. The Lancet 380 : 1231-40, 2012
 
2) Berkhemer OA, et al : A Randomized trial of Intraarterial treatment for acute ischemic stroke. N Engl J Med 372 : 11-20, 2015
PubMed
3) Nogueira RG, et al : Thrombectomy 6 to 24 hours after stroke with a mismatch between deficit and infarct. N Engl J Med 378 : 11-21, 2018
PubMed
4) 山上宏 : REXAS technique, 160-3 (坂井信幸ほか編 : 脳血管内治療の進歩 : ブラッシュアップセミナー 2019. 診断と治療社, 東京, 2020)
 
P.169 掲載の参考文献
1) Duffy S, et al : Novel methodology to replicate clot analogs with diverse composition in acute ischemic stroke. J Neurointerv Surg 9 : 486-91, 2017
PubMed
2) Gunning GM, et al : Clot friction variation with fibrin content ; implications for resistance to thrombectomy. J Neurointerv Surg 10 : 34-8, 2018
PubMed
3) Duffy S, et al : Per-pass analysis of thrombus composition in patients with acute ischemic stroke undergoing mechanical thrombectomy. Stroke 50 : 1156-63, 2019
PubMed
4) Maekawa K, et al : Erythrocyte-rich thrombus is associated with reduced number of maneuvers and procedure time in patients with acute ischemic stroke undergoing mechanical thrombectomy. Cerebrovasc Dis Exrtra 8 : 39-49, 2018
 
5) Weafer FM, et al : Characterization of strut indentation during mechanical thrombectomy in acute ischemic stroke clot analogs. J Neurointerv Surg 11 : 891-7, 2019
PubMed
6) Haussen DC, et al : Optimization clot retrieval in acute stroke : the push and fluff technique for closed-cell stentrievers. Stroke 46 : 2838-42, 2015
PubMed
P.175 掲載の参考文献
1) Maus V, et al : Maximizing first-pass complete reperfusion with SAVE. Clin Neuroradiol 28 : 327-38, 2018
PubMed
2) Goyal M, et al. MeVO : the next frontier? J NeuroIntervent Surg 12, 2020
 
3) Goto S, et al : A stent-retrieving into an aspiration catheter with proximal balloon (ASAP) technique : a technique of mechanical thrombectomy. World Neurosurg 109, 2018
PubMed
4) Imamura H, et al : Clinical trial of the new stent retriever Tron FX for both proximal and distal intracranial large vessel occlusions. J Stroke Cerebrovasc Dis 30 : 105585, 2021
 
5) Yoshimoto T, et al : Blind exchange with mini-pinning technique using the Tron stent retrieber for middle cerebral artery M2 occlusion thrombectomy in acute ischemic stroke. Frontiers in Neurology 12 : 667835, 2021
PubMed
P.181 掲載の参考文献
1) Turk AS, et al : ADAPT FAST study : a direct aspiration first pass technique for acute stroke thrombectomy. J Neurointerv Surg 6 : 260-4, 2014
PubMed
2) Lapergue B, et al : Effect of endovascular contact aspiration vs stent retriever on revascularization in patients with acute ischemic stroke and large vessel occlusion : the ASTER randomized clinical trial. JAMA 318 : 443-52, 2017
PubMed
3) Turk AS 3rd, et al : Aspiration thrombectomy versus stent retriever thrombectomy as first-line approach for large vessel occlusion (COMPASS) : a multicentre, randomised, open label, blinded outcome, non-inferiority trial. Lancet 393 : 998-1008, 2019
PubMed
4) 日本脳卒中学会ほか : 経皮経管的脳血栓回収用機器 適正使用指針 第4版. 脳卒中 42 : 281-313, 2020
Medical*Online
5) 徳田直輝ほか : 本邦における脳梗塞血管内治療の歴史とエビデンス. 脳神経内科 92 : 613-20, 2020
 
6) 傳和眞ほか : Penumbra-MAX導入後のPenumbra Systemによる機械的血栓除去術の有用性の検討. 脳卒中 38 : 1-7, 2016
Medical*Online
7) 今井啓輔 : CEPテキスト 2020 (第36回日本脳神経血管内治療学会総会生涯教育プログラム) : 97-127, 2020
 
8) 太田剛史ほか : 坂井信幸編集, 151-4 (ブラッシュアップセミナー 2019. 診断と治療社監修, 東京, 2020)
 
9) 山崎英一ほか : 脳動脈遠位部閉塞に対する血栓回収療法 : mTICI 2c-3を安全に得るために. 脳外速報 31 : 126-37, 2021
Medical*Online
10) 今井啓輔ほか : 坂井信幸編集, 160-4 (ブラッシュアップセミナー 2020. 診断と治療社, 東京, 2021)
 
P.188 掲載の参考文献
1) Lapergue B, et al : Effect of endovascular contact aspiration vs stent retriever on revascularization in patients with acute ischemic stroke and large vessel occlusion : the ASTER randomized clinical trial. JAMA 318 : 443-52, 2017
PubMed
2) Turk AS 3rd, et al : Aspiration thrombectomy versus stent retriever thrombectomy as first-line approach for large vessel occlusion (COMPASS) : a multicentre, randomised, open label, blinded outcome, non-inferiority trial. Lancet 393 : 998-1008, 2019
PubMed
3) Nikoubashman O, et al : Under pressure : comparison of aspiration techniques for endovascular mechanical thrombectomy. AJNR Am J Neuroradiol 39 : 905-9, 2018
PubMed
4) Gross BA, et al : Dump the pump : manual aspiration thrombectomy (MAT) with a syringe is technically effective, expeditious, and cost-efficient. J NeuroIntervent Surg 10 : 354-7, 2018
 
5) Kabbasch C, et al : First-line lesional aspiration in acute stroke thrombectomy using a novel intermediate catheter : Initial experiences with the SOFIA. Interv Neuroradiol 22 : 333-9, 2016
PubMed
6) Kaschner MG, et al : A retrospective single-center case series of direct aspiration thrombectomy as first-line approach in ischemic stroke and review of the literature. J Stroke Cerebrovasc Dis 28 : 640-8, 2019
PubMed
7) Shallwani H, et al : Safety and efficacy of the Sofia (6F) Plus distal access reperfusion catheter in the endovascular treatment of acute ischemic stroke. Neurosurgery 82 : 312-21, 2018
PubMed
8) Mohlenbruch MA, et al : Multicenter experience with the new SOFIA Plus catheter as a primary local aspiration catheter for acute stroke thrombectomy. J Neurointerv Surg 9 : 1223-7, 2017
PubMed
9) Marnat G, et al : First-line Sofia aspiration thrombectomy approach within the endovascular treatment of ischemic stroke multicentric registry. Am J Neuroradiol 40 : 1006-12, 2019
PubMed
10) Nouri N, et al : Realworld thrombectomy using the Sofia catheter. World Neurosurg 122 : e1247-51, 2019
PubMed
11) Tsuji Y, et al : Clinical result of mechanical thrombectomy using Sofia Plus with acute ischemic stroke compared with the stent retriever. World Neurosurg 149 : e11-5, 2021
PubMed
12) Grieb D, et al : Mechanical thrombectomy of M2 occlusions with distal access catheters using ADAPT. J Neuroradiol 46 : 231-7, 2019
PubMed
13) Smith M, et al : Force and aspiration on catheters utilized in the ADAPT technique in acute ischemic stroke : a bench top analysis. J Neuroradiol 49 : 305-8, 2022
PubMed
14) Heit JJ, et al : Sofia intermediate catheter and the SNAKE technique : safety and efficacy of the Sofia catheter without guidewire or microcatheter construct. J Neurointerv Surg 10 : 401-6, 2018
PubMed
15) Zaidat OO, et al : First pass effect : a new measure for stroke thrombectomy devices. Stroke 49 : 660-6, 2018
PubMed
P.196 掲載の参考文献
1) Daniel A Tonetti, et al : Large-bore aspiration catheter selection dose not influence reperfusion or outcome after manual aspiration thrombectomy. J NeuroIntervent Surg 11 : 637-40, 2019
 
2) Lapergue B, et al : Effect of endovascular contact aspiration vs stent retriever on revascularization in patients with acute ischemic stroke and large vessel occlusion : the ASTER randomized clinical trial. JAMA 318 : 443-52, 2017
PubMed
P.204 掲載の参考文献
1) Kyselyova AA, et al : Vessel diameter and catheter-to-vessel ratio affect the success rate of clot aspiration. J Neurointerv Surg 13 : 605-8, 2021
PubMed
P.209 掲載の参考文献
1) Berkhemer OA, et al : A randomized trial of intraarterial treatment for acute ischemic stroke. N Engl J Med 372 : 11-20, 2015
PubMed
2) Turk AS, et al : ADAPT FAST study : a direct aspiration first pass technique for acute stroke thrombectomy. J Neurointerv Surg 6 : 260-4, 2014
PubMed
3) Bertrand Lapergue, et al : Effect of endovascular contact aspiration vs stent retriever on revascularization in patients with acute ischemic stroke and large vessel occlusion. JAMA 318 : 443-52, 2017
PubMed
4) Turk AS 3rd, et al : Aspiration thrombectomy versus stent retriever thrombectomy as first-line approach for large vessel occlusion (COMPASS) : a multicentre, randomised, open label, blinded outcome, non-inferiority trial. Lancet 393 : 998-1008, 2019
PubMed
5) Bertrand Lapergue, et al : Effect of thrombectomy with combined contact aspiration and stent retriever vs stent retriever alone on revascularization in patients with acute ischemic stroke and large vessel occlusion : The ASTER2 randomized clinical trial. JAMA 326 : 1158-69, 2021
PubMed
6) McTaggart RA, et al : Continuous aspiration prior to intracranial vascular embolectomy (CAPTIVE) : a technique which improves outcomes. J Neurointerv Surg 9 : 1154-9, 2017
PubMed
7) Francesco Massari, et al : ARTS (aspiration-retriever technique for stroke) : Initial clinical experience. Interv Neuroradiol. 22 : 325-32, 2016
PubMed
8) Goto S, et al : A stent-retrieving into an aspiration catheter with proximal balloon (ASAP) technique : a technique of mechanical thrombectomy. World Neurosurg 109 : e468-75, 2018
PubMed
P.214 掲載の参考文献
1) Matsumoto H, et al : Initial clinical experience using the two-stage aspiration technique (TSAT) with proximal flow arrest by a balloon guiding catheter for acute ischemic stroke of the anterior circulation. J Neurointervent Surg 9 : 1160-5, 2017
 
P.217 掲載の参考文献
1) Pfaff JAR, et al : Delivery assist catheter : a new device class and initial experience in mechanical thrombectomy in acute ischemic stroke patients. Clin Neuroradiol 29 : 661-7, 2019
PubMed
P.224 掲載の参考文献
1) Lapergue B, et al : Effect of thrombectomy with combined contact aspiration and stent retriever vs stent retriever alone on revascularization in patients with acute ischemic stroke and large vessel occlusion : The ASTER2 randomized clinical trial. JAMA 326 : 1158-69, 2021
PubMed
2) Turk AS, et al : Initial clinical experience with the ADAPT technique : a direct aspiration first pass technique for stroke thrombectomy. J Neurointerv Surg 6 : 231-7, 2014
PubMed
3) Ohshima T, et al : Experimental evaluation of the risk of distal embolization during endovascular clot retrieval using various techniques. Asian J Neurosurg 16 : 84-8, 2021
PubMed
4) McTaggart RA, et al : Continuous aspiration prior to intracranial vascular embolectomy (CAPTIVE) : a technique which improves outcomes. J Neurointerv Surg 9 : 1154-9, 2017
PubMed
5) Maus V, et al : Maximizing First-Pass Complete Reperfusion with SAVE. Clin Neuroradiol 28 : 327-38, 2018
PubMed
6) Massari F, et al : ARTS (Aspiration-Retriever Technique for Stroke) : Initial clinical experience. Interv Neuroradiol 22 ; 325-32, 2016
PubMed
7) Goto S, et al : A stent-retrieving into an aspiration catheter with proximal balloon (ASAP) technique : a technique of mechanical thrombectomy. World Neurosurg 109 : e468-75, 2018
PubMed
8) Ohshima T, et al : Relationship between clot quality and microguidewire configuration during endovascular thrombectomy for acute ischemic stroke. World Neurosurg 107 : 657-2, 2017
PubMed
9) Ohshima T, et al : Initial clinical experience of using a newly designed preshaped microguidewire in acute endovascular thrombectomy. Asian J Neurosurg 15 : 241-4, 2020
PubMed
10) Ohshima T, et al : Experimental evaluation and training of stent clot retrieval : the confront clot scrambling method. Nagoya J Med Sci 79 : 403-8, 2017
 
11) Ohshima T, et al : Novel technique for detection of actual position of clot during endovascular clot retrieval : assessment of microcatheter withdrawing angiography. World Neurosurg 137 : 229-34, 2020
PubMed

第6章 臨床現場で遭遇する, 迷うsituationでどうするか

P.229 掲載の参考文献
1) 日本脳卒中学会 : rt-PA (アルテプラーゼ) 静注療法適正治療指針 第二版 (最終閲覧 2022年5月), https://www.jsts.gr.jp/img/rt-PA02.pdf
 
2) 日本脳卒中学会 : 静注血栓溶解療法 (rt-PA) 適正治療指針 第三版 (最終閲覧 2022年5月), https://www.jsts.gr.jp/img/rt-PA03.pdf
 
3) Vera-Cruz A, et al : Cardiac tamponade after thrombolysis for acute ischemic stroke a case with an excellent outcome. Eur J Case Rep Intern Med 7 : 001534, 2020
PubMed
4) 次田夏美ほか : 急性期脳梗塞に対するrt-PA静注療法語, 心破裂を併発した一剖検例. 脳卒中 33 : 241-5, 2011
 
5) 佐治越爾ほか : rt-PA静注療法の翌日に心破裂を起こした脳梗塞の63歳男性剖検例. 臨床神経 49 : 605, 2009
 
6) 橋本憲一郎ほか : アルテプラーゼ投与後の心破裂. 脳卒中 37 : 26-30, 2015
Medical*Online
7) Dhand A, et al : Cardiac rupture after intravenous t-PA administration in acute ischemic stroke. Neurocrit Care 13 : 261-2, 2010
PubMed
8) Kremen SA, et al : Hemopericardium following intravenous thrombolysis for acute ischemic stroke. Cerebrovasc Dis 20 : 478-9, 2005
PubMed
9) Kasner SE et al : Hemopericardium and cardiac tamponade after thrombolysis for acute ischemic stroke. Neurology 50 : 1857-9, 1998
PubMed
10) Marto JP, et al : Intravenous thrombolysis for acute ischemic stroke after recent myocardial infarction. Stroke 50 : 2813-8, 2019
PubMed
11) Yang P, et al : Endovascular thrombectomy with or without intravenous alteplase in acute stroke. N Engl J Med 382 : 1981-93, 2020
 
12) Suzuki K, et al : The randomized study of endovascular therapy with versus without intravenous tissue plasminogen activator in acute stroke with ICA and M1 occlusion (SKIP study). Int J Stroke 14 : 752-5, 2019
PubMed
13) Wenjie Zi, et al : Effect of endovascular treatment alone vs intravenous alteplase plus endovascular treatment on functional independent in patients with acute ischemic stroke : the DEVT randomized clinical trial. JAMA 325 : 234-43, 2021
 
P.234 掲載の参考文献
1) Hiramatsu R, et al : Successful recanalization for internal carotid artery occlusion with persistent primitive trigeminal artery manifesting only as ischemia of the posterior circulation. BMC Neurol 16 : 41, 2016
PubMed
2) Imahori T, et al : Acute ischemic stroke involving both anterior and posterior circulation treated by endovascular revascularization for acute basilar artery occlusion via persistent primitive trigeminal artery. J Korean Neurosurg Soc 59 : 400-4, 2016
PubMed
3) Horio Y, et al : Successful mechanical thrombectomy using a combined technique for internal carotid artery occlusion with persistent primitive trigeminal artery. Surg Neurol Int 11 : 345, 2020
PubMed
4) Saltzman GF : Patent primitive trigeminal artery studied by cerebral angiography. Acta Radiol 51 : 329-36, 1959
PubMed
5) Weon YC, et al : Classification of persistent primitive trigeminal artery (PPTA) : a reconsideration based on MRA. Acta Radiol 52 : 1043-51, 2011
PubMed
6) O'Uchi E, et al : Persistent primitive trigeminal arteries (PTA) and its variant (PTAV) : analysis of 103 cases detected in 16,415 cases of MRA over 3 years. Neuroradiology 52 : 1111-9, 2010
PubMed
P.238 掲載の参考文献
1) Tokunaga S, et al : Balloon-inflation anchoring technique for insertion of a guiding catheter in acute mechanical thrombectomy. JNET 11 : 53-8, 2017
 
2) 石井暁 : 超入門脳血管内治療 第2版. メディカ出版, 大阪, 2018
 
3) 前川秀継ほか : アクセス困難例における大動脈分枝起始部から吸引カテーテルを用いた機械的血栓回収療法. 脳血管内治療 7 : 40-4, 2022
Medical*Online
P.243 掲載の参考文献
1) Maekawa K, et al : Erythrocyte-rich thrombus is associated with reduced number of maneuvers and procedure time in patients with acute ischemic stroke undergoing mechanical thrombectomy. Cerebrovasc Dis Extra 8 : 39-49, 2018
PubMed
2) Jolugbo P, et al : Thrombus composition and efficacy of thrombolysis and thrombectomy in acute ischemic stroke. Stroke 52 : 1131-42, 2021
PubMed
3) Yuki I, et al : The impact of thromboemboli histology on the performance of a mechanical thrombectomy device. AJNR 33 : 643-8, 2012
PubMed
4) Boeckh-Behrens T, et al : The Impact of histological clot composition in embolic stroke. Clin Neuroradiol 26 : 189-97, 2016
PubMed
5) Berndt M, et al : Thrombus Permeability in Admission Computed Tomographic Imaging Indicates Stroke Pathogenesis Based on Thrombus Histology. Stroke 49 : 2674-82, 2018
PubMed
6) Bourcier R, et al : MRI Interscanner Agreement of the Association between the Susceptibility Vessel Sign and Histologic Composition of Thrombi. J Neuroimaging 27 : 577-82, 2017
PubMed
7) Bourcier R, et al : Susceptibility vessel sign on MRI predicts better clinical outcome in patients with anterior circulation acute stroke treated with stent retriever as first-line strategy. J Neurointerv Surg 11 : 328-33, 2019
PubMed
8) Gunning GM, et al : Clot friction variation with fibrin content ; implications for resistance to thrombectomy. J Neurointerv Surg 10 : 34-8, 2018
PubMed
9) Maus V, et al : The save technique : large-scale experience for treatment of intracranial large vessel occlusions. Clin Neuroradiol 29 : 669-76, 2019
PubMed
10) Mizokami T, et al : Aspiration catheter reach to thrombus (ART) Sign in combined technique for mechanical thrombectomy : impact for first-pass complete reperfusion. J Stroke Cerebrovasc Dis 28 : 104301, 2019
PubMed
11) McTaggart RA, et al : Continuous aspiration prior to intracranial vascular embolectomy (CAPTIVE) : a technique which improves outcomes. J Neurointerv Surg 9 : 1154-9, 2017
PubMed
P.247 掲載の参考文献
1) Biller J, et al : Intraluminal clot of the carotid artery. A clinical-angiographic correlation of nine patients and literature review. Surg Neurol 25 : 467-77, 1986
PubMed
2) Bhatti AF, et al : Free-floating thrombus of the carotid artery : literature review and case reports. J Vasc Surg 45 : 199-205, 2007
PubMed
3) 坂井翔建ほか : 脳梗塞の原因として内頸動脈内血栓が関与した1例. 臨床神経学 57 : 14-20, 2017
 
4) Giragani S, et al : Stentriever thrombectomy with distal protection device for carotid free floating thrombus : a technical case report. J Neurointerv Surg 9 : e33, 2017
PubMed
5) Scharf EL, et al : Extensive mobile thrombus of the internal carotid discovered after intravenous thrombolysis : what do I do now? Neurohospitalist 7 : 96-9, 2017
 
6) Yamaoka A, et al : Endovascular treatment of asymptomatic free-floating thrombus in the carotid artery bifurcation : a direct aspiration first-pass technique under double balloon protection. BMJ Case Rep 12 : e230295, 2019
PubMed
7) 近藤雄一郎ほか : ステント留置術後に再発, 不動化, 消退の経過をたどった総頸動脈可動性プラークの1例. 脳卒中 41 : 293-8, 2019
Medical*Online
P.252 掲載の参考文献
1) Ospel JM, et al : A review of endovascular treatment for medium vessel occlusion stroke. J NeuroIntervent Surg 13 : 623-30, 2021
 
2) Haussen DC, et al : Blind exchange with mini-pinning technique for distal occlusion thrombectomy. J NeuroIntervent Surg 12 : 392-5, 2020
 
3) Menon BK, et al : Efficacy of endovascular thrombectomy in patients with M2 segment middle cerebral artery occlusions : meta-analysis of data from the HERMES Collaboration. J NeuroIntervent Surg 11 : 1065-9, 2019
 
4) Saber H, et al : Mechanical thrombectomy for acute ischemic stroke with occlusion of the M2 segment of the middle cerebral artery : a meta-analysis. J NeuroIntervent Surg 10 : 620-4, 2018
 
5) Perez-Garcia C, et al : Mechanical thrombectomy in medium vessel occlusions blind exchange with mini-pinning technique versus mini stent retriever alone. Stroke 51 : 3224-31, 2020
PubMed
6) Renieri L, et al : Mechanical thrombectomy beyond the circle of Willis : efficacy and safety of different techniques for M2 occlusions. J Neurointerv Surg 14 : 546-50, 2022
PubMed
7) Neki H, et al : Familiarization with contact aspiration using non-penetrating of the thrombus (CANP) technique as the initial procedure for acute ischemic stroke. J Stroke Cerebrovasc Dis 30 : 1060666, 2021
 
8) Turk AS, et al : ADAPT FAST study : a direct aspiration first pass technique for acute stroke thrombectomy. J NeuroIntervent Surg 6 : 260-4, 2014
 
9) Goto S, et al : A Stent-retrieving into an aspiration catheter with proximal balloon (ASAP) technique : a technique of mechanical thrombectomy. World Neurosurg 109 : e468-75, 2018
PubMed
10) McTaggart RA, et al : Continuous aspiration prior to intracranial vascular embolectomy (CAPTIVE) : a technique which improves outcomes. J NeuroInterventional Surg 9 : 1154-9, 2017
 
11) Goyal M, et al : Secondary medium vessel occlusions. Stroke 52 : 1147-53, 2021
PubMed

書評

最近チェックした商品履歴

Loading...