Abstract

BackgroundUltrasound accelerates thrombolysis with tPA (sonothrombolysis). Ultrasound in the absence of tPA also accelerates clot break-up (sonolysis). Adding intravenous gaseous microbubbles may potentiate the effect of ultrasound in both sonothrombolysis and sonolysis. The Norwegian Sonothrombolysis in Acute Stroke Study aims in a pragmatic approach to assess the effect and safety of contrast enhanced ultrasound treatment in unselected acute ischaemic stroke patients.Methods/DesignAcute ischaemic stroke patients ≥18 years, with or without visible arterial occlusion on computed tomography angiography (CTA) and treatable ≤ 4½ hours after symptom onset, are included in NOR-SASS. NOR-SASS is superimposed on a separate trial randomising patients with acute ischemic stroke to either tenecteplase or alteplase (The Norwegian Tenecteplase Stroke Trial NOR-TEST). The NOR-SASS trial has two arms: 1) the thrombolysis-arms (NOR-SASS A and B) includes patients given intravenous thrombolysis (tenecteplase or alteplase), and 2) the no-thrombolysis-arm (NOR-SASS C) includes patients with contraindications to thrombolysis. First step randomisation of NOR-SASS A is embedded in NOR-TEST as a 1:1 randomisation to either tenecteplase or alteplase. Second step NOR-SASS randomisation is 1:1 to either contrast enhanced sonothrombolysis (CEST) or sham CEST. Randomisation in NOR-SASS B (routine alteplase group) is 1:1 to either CEST or sham CEST. Randomisation of NOR-SASS C is 1:1 to either contrast enhanced sonolysis (CES) or sham CES. Ultrasound is given for one hour using a 2-MHz pulsed-wave diagnostic ultrasound probe. Microbubble contrast (SonoVue®) is given as a continuous infusion for ~30 min. Recanalisation is assessed at 60 min after start of CEST/CES. Magnetic resonance imaging and angiography is performed after 24 h of stroke onset. Primary study endpoints are 1) major neurological improvement measured with NIHSS score at 24 h and 2) favourable functional outcome defined as mRS 0–1 at 90 days.DiscussionNOR-SASS is the first randomised controlled trial designed to test the superiority of contrast enhanced ultrasound treatment given ≤4½ hours after stroke onset in an unselected acute ischaemic stroke population eligible or not eligible for intravenous thrombolysis, with or without a defined arterial occlusion on CTA. If a positive effect and safety can be proven, contrast enhanced ultrasound treatment will be an option for all acute ischaemic stroke patients. EudraCT No 201200032341; www.clinicaltrials.gov NCT01949961.

Highlights

  • IntroductionAdding intravenous gaseous microbubbles may potentiate the effect of ultrasound in both sonothrombolysis and sonolysis

  • NOR-SASS is the first randomised controlled trial designed to test the superiority of contrast enhanced ultrasound treatment given ≤41⁄2 hours after stroke onset in an unselected acute ischaemic stroke population eligible or not eligible for intravenous thrombolysis, with or without a defined arterial occlusion on computed tomography angiography (CTA)

  • A systematic review and meta-analysis of randomised controlled trials and case–control studies [68] from 1970 till 2013, which included 7 randomised control trials and 3 case control studies showed that sonothrombolysis and sonolysis is safe, effective (OR of complete recanalization (CR) at 1–2 h: 2.95;95 % Confidence interval (CI): 1.81-4.81; P < 0.00001) and patients treated have more than two-fold higher likelihood of favourable long-term outcome (3-months modified Rankin Scale (mRS) 0–2; OR: 2.20; CI:1.52-3.19; P < 0.0001)

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Summary

Introduction

Adding intravenous gaseous microbubbles may potentiate the effect of ultrasound in both sonothrombolysis and sonolysis. The Norwegian Sonothrombolysis in Acute Stroke Study aims in a pragmatic approach to assess the effect and safety of contrast enhanced ultrasound treatment in unselected acute ischaemic stroke patients. Intravenous (iv) thrombolysis with recombinant tissue plasminogen activator (tPA) is the only proven effective treatment for achieving arterial recanalisation and does improve outcome if given within 41⁄2 hours from symptom onset [1]. Transcranial ultrasound has been shown in vitro and in vivo to accelerate thrombolysis [4,5,6] Ultrasound energy promotes motion of fluid around the thrombus (microstreaming) [7], stimulates arterial dilation, weakens fibrin cross-links, increases uptake and penetration of tPA and increases tPA concentration within the thrombus [8,9,10,11]. Ultrasound may promote tPA delivery despite stagnant flow near the occlusion

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